Bibliography on Cermets (1945 - 1971)
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Transcript of Bibliography on Cermets (1945 - 1971)
Mai 1972
Institut für Material- und Festkörperforschung
Bibliography on Cermets (1945 - 1971)
Ä. Jesse
KFK 1598
G M. 8. H.
Mai 1972
KERNFORSCHUNGSZENTRUM KARLSRUHE
KFK- 1598
Institut rar Materia1- und FestkBrperforschung
Bib1iography on Cermets (1945-1971)
by
Andreas Jesse *
Gesellschaft für Kernforschung m.b.H., Kar1sruhe
* now at CERN, Sci.lnf.ServiceCH-1211 Geneva 23
2.5.1972
- 3 -
Abstract
The bibliography contains some 3000 references on two-phase cermets.
The arrangement is chronological (1945-1971) and alphabetical (first
author), respectively.
An author index and a detailed subject index is included. The subject
index lists the contents of every reference by means of descriptor
strings with logic structure. The thesaurus of descriptors comprises
the following fields: materiales), technology, properties, applications,
and bibliographie information.
The distribution of the number of references with time, the main Helds
of application, and some basic problems related to the research and de
velopment of cermets are shortly discussed.
Abstrakt
Die Bibliografie enthält etwa 3000 Referenzen über zweiphasige Germets.
Die Anordnung ist chronologisch (1945-1971) bzw. alphabetisch (nach dem
ersten Autor).
Ein Autoren- und ein ausführliches Sach-Verzeichnis sind vorhanden. Im
Sach-Verzeichnis wird der Inhalt jeder Referenz durch Descriptor-Ketten
mit logischer Struktur erschlossen. Das Descriptor-Vokabular ist nach
folgenden Gebieten angeordnet: Material(ien), Technologie, Eigenschaf
ten, Anwendungen und bibliografische Information.
Die zeitliche Verteilung der Zahl der Referenzen, die wichtigsten An
wendungsgebiete sowie grundlegende Probleme im Zusammenhang mit der
Weiterentwicklung von Germets werden kurz diskutiert.
- 5 -
Contents
1. Preface page
Fie1d Covered 7Information Sources 8
Findings and Conc1usions 9
2e References
1945 (year of pub1ication) 11
1950 13
1955 27
1960 55
1965 88
1970 138
Appendix 154
3. Indices
Author Index 151
Subject Index 183
Figure 1 Variation of the number of references per yearwith time for different fields of application
Table 1
Table 2
Guide to subject fields and descriptors
Ceramic-metal combinations which have beeninvestigated (also used as descriptors)
p. 9
185
186
- 7 -
1. P r e f ace
Field Covered
Cer met s are composite materials that contain (at least) one ~amic
and (at least) one ~allic phase. Ceramic phase indicates a materials with
mainly localized binding forces such as occur in oxides, sulphides, ~
The references in this bibliography cover essentially the field of ~-phase
cermets, i.e. combinations of the type
where ~=a metal, N=a non-meta.L, M:o:=a metal, x=stoichiometry (e.g. U02-CU,ceramic ~Nx = urania, metal M:o: = copper).
The composites treated here are usually m i c rod i s per s e d systems
(dispersions); the representative dimensions of the embedded phase are in the
order of 1 to lOO/um (an exception is given by thin-film cermets).
Dispersion and precipitation hardened materials are not included, nor are
laminated and fiber reinforced materials. The bibliography was confined to
~-phase cermets in order to facilitate a relatively simple insight into
composites.
Marginal references were evaluated when they seemed to be of interest to the
field of cermets: e.g., the evaporation of metals on ceramics is of interest
in the production of coated particles; porous ceramics may serve as models
in theoretical considerations; phase diagrams and constitutional investigations
give information on the compatibility of ceramic/metal combinations.
The arra~ement of the references is by year of publication and, within each
year, alphabetically by first author. Contributions by firma and such like
are designated by "Anon." (anonymous author). The references are given in
their original language if it is English, Prench, or German; otherwise, the
titles are translated into English or German.
Papers read at conferences are only given in those cases where they seem
not to have been published elsewhere. By including these unpublished papers,
as weIl as patents, it is intended to give as complete a bibliography con
cerning the fields of research and development of cermets.
- 8 -
Information Sources
The references were found in abstracting periodicals that have a special
heading like "cermets", "composites", or similar:
AED-AB, Informationen zur Kernforschung und Kerntechnik (since 1962)
Applied Science and Technology Index (since 1958)
Berichte der Deutschen Keramischen Gesellschaft (sinee 1920)
Ceramic Abstracts (sinee 1918)
Index Bibliographique de Chemie et Metallurgie des Materiaux Nucleaires(since 1965)
International Nuelear Information System, atomindex (sinee 1970)
Metallurgical Abstracts (sinee 1934)
Metals Abstracts (sinee 1968)
Nuelear Science Abstracts (sinee 1948)
Planseeberiehte fUr Pulvermetallurgie (sinee 1953)
Cross-cheeking and complementing was done using the referenees no. 143, 953,
1328, 2001, and 2329.
Original contributions on eermets may be found espeeially in the following
periodicals:
American Ceramic Soeiety Bulletin (sinee 1922)
Composites (sinee 1969)
J o American Ceramie Soeiety (sines 1918)
J. Composite Materials (sinee 1967)
J. Nuelear Materials (sinee 1959)
Metal Progress (sinee 1912)
Microstruc~ares (since 1970)
Nuclear Technology (sinee 1971)
Powder Metallurgy (sinee 1958)
Powder Metallurgy International (sinee 1969)
Soviet Powder Metallurgy and Metal Ceramies (sinee 1964)
Patents are given in, e.g.
brevatome (Atom Patents Abstracts) (since 1958)
Current classifieation numbers for cermets are
669.018.9
B22f; C22
(Universal Deeimal Classifieation)
(International Patent Classifieation)
- 9 -
Findings and Conclusions
(1) Fig. 1 shows the variation of the number of references per year with
time. As may be noted, this number was around 100/year in the period 1955/60;
it became nearly twice as much ten years later.
The largest field of application of cermets is in nuclear engineering; the
references on fuels, fuel elements, and thermionic emitters cOEStitute
25 %of the total number.
Other applications of importance are as turbine materials (decreasing
number of publications with time), as thin-film cermets (since 1965),
cutting materials (41 references), rocket materials (40 ref.), electrical
contacts (25 ref.), and friction materials (21 ref.).
20 %of the references are on (two-phase) cemented carbides, notably
WC-Co and TiC-Co.
200 cermets(2809 )
thermionic emitters(46 )
'70'65
lJ·.. ~......... I _
: :::::::: :::: ::::: fuels.fuel elernents::: : ::: :: :: :: :: :: :' (671 ).. . . . . . . . . .. . .... .: :::: : :: : : : : : : : :: :::-.......... . .. .. . .. . . .. .. . . . . . . . . ... . . .. .. . . . . .. . . . . . . . . . . . . .
'60'55'50
100
N(ref./yeor)
50
'SO '55 '60 '65 '70t (year)
Fig.l Variation of the nurnber cf references per year (N) withtime (t ) for different fields of application.
(The total number of references is indicated in parantheses)
- 10 -
(2) Table 2 on page 186 lists the ceramic/metal combinations and cermets
that have been investigated. Among the ceramies (97), the oxides are dealt
with most often; among the metals (46), the elements Fe, Co, Ni and Cr,
Mo, Wprevail. It can also be seen from this table that the 500 combin
ations investigated so far constitute only 11 %of all listed, possible
systems (4462); of course, not all systems are of technical interest.
(3) For a further effective development of cermets, the following points
need clarification:
- the definition as used in this bibliography (cf. references 2282, 2545,and 2907) is not yet generally adopted
- the models used for understanding and computing the physical properties
of cermets in dependence of the microstructure are too idealized and
need further refinement. Possible ways consist in the development of
"model cermets" and the simulation of different models by means of
computers
- the literature on cermets is spread very widely. There is a lack in
recent reviews on technology, properties, and applications; these reviews
would prove useful not only in the field of cermets but for composites
in general (e.g., dispersion hardened materials, fiber reinforced mater
ials, etc.). Finally, further authoritative~ collections are needed.
Acknowledgment
I would like to thank Prof. Dz , F. Thfunmler and Dr, G. Ondracek for sup
porting this work, Mr. K. Scott for comments, and my wife, Gudrun, for
considerable help in preparing this bibliography as weIl as for talking
me into the purehase of an electric typewriter.
- 11 -
2. R e f e ren ces
lW.1. M. Hauser, Schweiz.Bauztg. ~, 282-4 (1945): Von Silizium
keramiken zu Metallkeramiken
2. F.R. Hense1 and E.I. Larsen, Trans.AIME 161, 569 (1945): CertainCharacteristics of Silver-Base Powder Meta11urgica1Products
3. R. Russell jr., PR-18776 (1945): The Eleetrica1 and Teehnica1Ceramic Industry of Germany
4. M.l. Grenzelovieh, Automobil'naya Prom. No.9-10, 20-1 (1946):New Cemented Carbide Composition of lncreased Hardnessand Toughness
5. Friedr. Krupp FD-Rept.No. 258 146 (1946), Pt.l: Tungsten Carbide
6. M. Littmann, Engng 122, 502-3 (1946): Hardness and Wear Resistanee
7. P.M. MeKenna, Iron Age 121 (6), 64-8 (1946): German VersusAmerican Cemented Carbides
8. A.D. MeQui11an, C.S.M. Duggan and M.K. Peteh, F.D. Doeum. No.1179/46 (1946): Improvement in Production of SinteredCarbides
9. Anon., PB-10 489, Rept. 133 (1947): Determination of Solubi1ityLimit for Cobalt in Tungsten Carbide
10. S.H. Brier1ey, Metallurgia 22 (209), 253 (1947): CementedTungsten Carbides
11. W. Dawihl and Studienges. Hartmetall, F.D.-Rept. No. 3930/47(1947): Zone Formation in Hard Metal
12. M.l. Genze1ovich, C.A.41, No.9, 2682 (1947)= New Cemented CarbideComposition of lnereased Hardness and Toughness
13. H. Krainer and K. Konopicky, Berg- u. Hüttenmänn. Monatsh. ~(10/11), 166-78 (1947): Investigations of SinteredHard Metals
14. A.D. McQuillan, C.S.M. Duggan and M.K, Peteh, Met.Powd.Rept. 1(10), 155 (1947): Improvement in Produetion of SinteredCarbides
15. E.C. Mantle, Metal Treatment l!, 141-8 (1947): Sintering ofCobalt Binder
16. E. Meyer-Hartwig, in: R. Sehmid, AMC Transl. No. F-TS-955-RE(1947): Heat Resistant Mixed Metal-Ceramic Materials
17. F.J. Sandford, Metal Treatment l!, 239-41 (1947)= Sintering ofTungsten Carbides with Cobalt Binder
18. E.J. Sandford and E. Ineson, Metallurgia 22 (210), 298-300 (1947):Production of Cemented Tungsten Carbides
- 12 -
19. E.J. Sandford and E.M. Trent, Iron and Steel Inst. Spec.Rept. No.38, 84-91; Met.Powd.Rept. 1 (11), 170 (1947): Physioa1Meta11urgy of Sintered Carbides
20. F. Skaupy, Technik 1, 157-8 (1947): Mischkörper aus Metallen undNichtmetallen, insbesondere 0Xlfden
21. Studienges. Hartmetall, F.D. Reports 3722/47, 37~4/47, 3740/47,3784/47, 3789/47, 3792/47, 3795/47, 3796/47, 3828/47,3831/47, 3841/47, 3843/47, 3844/47, 3862/47, 3873/47,3878/47, 3882/47, 3882/47, 3892/47, 3923/47 (1947):Cemented Carbides
2~. E.M. Trent, Metal Ind. 71, 499 (1947): Sintered Carbides - Productsand Properties --
25. N.T. Williams, Sci.lnstr. ]&, 394-7 (1947): Metal-Ceramic VacuumSeals
24. B. Zacharzewski, Hutnik 14 (6), 292-301 (1947): Production andFroperties of Sintered Carbides
1948
25. A.L. Berger, Tech.Data Dig. 13 (23), 13-8 (1948): High TemperatureCeramic Materials
26. H. Franssen, Arch.EisenhUttenwes. 19, 79-84; 85-9 (1948): Strukturvon Hartmetall-Legierungen; Magnetische Eigenschaften beider Beurteilung von Hartmetall-Legierungen
27. M. Hauser und F. Held, Osterreieh.Chemiker-Ztg 49 (10/11), 196-7(1948): Keramik, Siliziumkeramik, Metallkeramik
28. H.H. Hausner, Metal Ind. 72, 405-40 (1948): Metal Ceramies
29. R. Kieffer und W. Hotop, Pulvermetallurgie der Sinterwerkstoffe(2 •AU.fl. , Springer, Berlin, 1948), 1-12, 382-3
30. A.G. Metcalfe, Met.Powd.Rept. 1 (12), 184; Osterreich.ChemikerZtg 49 (10/11), 194 (1948): Preparation and Propertiesof Titanium and Tungsten-Carbide
31. S.J. Sindeband, Met.Powd.Hept. 1 (12), 186; Osterreieh.ChemikerZtg 49 (10/11), 195 (1948): Cemented Chromium Boride
32. C.S. Smith AlME Techn. Paper No. 2387, Metals Technology (1948):Gr~inS, Phases and Interfaces - An Interpretation of Miero-structure
33. R.E. Tate, NEPA-531; AECU-I05 (1948): Report on Tantalum Carbide
34. G.J. Trapp, Mech.World 123 (3192), 332-5 (1948): Production ofHard Met als --
35. B. Zacharzewski, J.lron Stee] Inst. 160 (1), 113 (1948): Productionand Properties of Cemented Carbides
36. N.M. Zarubin, Zavodskaya Lab. 14, 1434-6 (1948): MetallographieStudy of Cemented Carbides
37. J. Barksdale, Titanium - Its Occurrence, Chemistry and Technology~onald Press, New York, 1949), Ch.23: ttard Metal Alloys
- 13 -
38. A.R. Blackburn, T.S. Shevlin and H.R. Lowers, J.Am.Ceram.Soc. ~,81-89, 91 (1949): Pundamental Study and Equipment forSintering and Testing of Cermet Bodies
39. G.C. Deutsch, A.J. Repko and W.G. Lidman, NACA-TN-1915 (1949):Elevated Temperature Properties of Several TitaniumCarbide Base Cermets
40. H. Franssen, Stahl u. Eisen~, 169 (1949): Struktur von Hartmetall-Legierungen
41. H.J. Hamjian and W.G. Lidman, NACA-TN-1948 (1948): Investigationof Bonding Between Metals and Ceramics. I. Nickel, Cobalt,Iron or Chromium with Boron Carbide
42. C.A. Hoffmann, G.M. Ault and J.J. Gangler, NACA-1836 (1949):Initial Investigation of Carbide-Type Ceramal of 80 %Titanium Carbide plus 20 %Cobalt for Use as Gas TurbineBlade Metals
43. R. Kieffer und F. Benesovsky, Berg- u. Hüttenmänn. Monatsh. 94,284-94 (1949): Die Herstellung und Eigenschaften von~euartigen Sinterlegierungen (Tränkwerkstoffen)
44. R. Kieffer und F. Benesovsky, Werkstatt und Betrieb 82 (5), 145-8(1949): Gesinterte Hartmetalle --
45. M. Littmann, Brit.Patent 623,552 (1949): Bearings and Like RubbingSurf'ace
46. J.C. Redmond and E.N. Smith, AINill Metal Trans. 185, 981-93 (1949):Cemented Titanium Carbide
41. E.J. Sandford, Alloy Metal Rev. 7 (52), 2-12 (1949): Control ofProperties of Sintered Rard Metals
48. T.S. Shev1in and A.R. Blackburn, J.Am.Ceram.Soc. ~, 363-6 (1949):Fundamental Study arid Equipment for Sintering and Testingof Cermet Bodies. IV. Developing and Testing Equipment
49. S.J. Sindeband, Trans. AIWill 185, 198-202 (1949): Properties ofChromium Boride and Sintered Chromium Boride
1950
50. Anon., Am.Machinist 94, 1296 (1950): New Use for Carbide
51. Anon., Machine Design 22 (10), 101-2 (1950): Metal Ceramies
52. Anon., Metal Progr. 57 (2), 259-61 (1950): Metal-Oxide Partsfor Turbine Blades
53. J.C. Campbell, Materials and Methods 31, 59 (1950): Metals andRefractories Combined in High Temperature StructuralParts
54. W.B. Crandall, paper.: Office of Nava l, Res , , Conf. on High Temperatures, Philadelphia 1950: Oxidation Studies on Ceramets
55. W.B. Crroldall and W.G. Lawrence, HP-1779, NP-1823 (1950): Fundamental Properties of Metal-Ceramic Mixtures at HighTemperatures
56. W.B. Crandall, H.S. Levine, G.E. Lorey and V.D. Frechette, NP-1763(1950): Mechanism of Cermet Oxidation at High Temperatures
62. G.R.
63. L. S.
64. V.D.
65. R.F.
66. C.G.
67. H.W.
68. H.J.
- 14 -
57. W. Dawihl und K. Schröter, Z.Metallkde 41, 231-3 (1950): Sinternvon Hartmetall-Legierungen
58. W.H. Duckworth and I.E. Campbell, Ind.Heating 17, 124-6 (1950):High Temperature Applications of Cefamic Materials inGas Turbines
59. W.H. Duckworth and I.E. Campbell, Mech.Engng 72, 128, 140 (1950):The Outlook for Ceramics in Gas Turbin~
60. W.J. Engel, PB-IOI 851; NACA-TN-2l87 (1950): Bonding Investigationof Titanium Carbide with Various Elements
61. H. Fahlenbrach, Elektrotechn.Z. 71, 295-6 (1950): Metallkeramik,Verbundstoffe aus Metallen und keramischen Stoffen
Finlay, paper: Electrochem.Soc., Cleveland 1950: Refractoriesfor 4,000 °F
Foster et al., J.Am.Ceram.Soc. 21, 27-33 (1950): SinteringCarbides by Means of Fugitive Binders
Frechette, NP-1467 (1950): Fundamentals of Metal-CeramicMixtures at High Temperatures
GeIler, Nucleonics 7 (4), 3-17 (1950): A Survey of Ceramicsfor Nuclear Reactors
Goetzel, Treatise in Powder Metallurgy (Interscience, New York,1950), Vol.2, 75-182: Hard Metals and Compositions
Greenwood, Metallurgia 42, 176-8 (1950): Problems in PowderMetallurgy
Hamjian and W.G. Lidman, PB-I02 793 (1950): Sintering Mechanism between Zirconium Carbide and Columbium
69. H.H. Hausner and H.B. Michaelson, Ceram.Age 22 (2), 78-80 (1950):Sintered Semiconducting Materials
70. Igramic Electric Comp., Brit.Patent 643,967 (1950): ElectricalContacts
71. R. Kieffer und F. Koelb, Berg- u. Hüttenmänn. Monatsh. 22, 49-58(1950): Herstellung von Hartmetallen durch das Tränkverfahren
72. W.D. Kingery et al., NEPA-1449 (1950): 10th Informal Month1y Reporton Development of Metal-Ceramic Compositions Suitable forService at Elevated Temperatures
73. J.H. Koenig et al., PB-l04 140, PB-I04 141, PB-l04 142, PB-I04 148,PB-l04 149, PB-I04 164 (1950): Ceramic Metalloid-MetalBodies
74. A. Langer and C. Wilson, WAPD-RM-22 (1950): Contribution to theElectroplating of Uranium Oxide on Aluminium and Magnesium
75. W.C. Lidman and H.J. Hamjian, NACA-TN-2050 (1950): Properties ofBoron Carbide-Iron Ceramal
76. L.H. Matthias and E.C. Ragatz, U.S. Patent 2,496,555 (1950): Contactfor Electrical Switches
77. M. Oswald, U.S. Patent 2,509,838 (1950): Tungsten and MolybdenumCarbides and Sintered Alloys
78. J.E. Roach, paper: Electrochem.Soc., Cleveland 1950: Effect ofChromium on the Oxidation Resistance of Titanium Carbide
Industrial Application
92. J.D.
93. A.L.
94. W.B.
95. W.B.
96. L.J.
- 15 -
79. P. Schwarzkopf, Z.Anorg.Allg.Chem. 262, 218-22 (1950): Beitrag zurTheorie des pulvermetallurgischen Tränkverfahrens
80. T.S. Shevlin, Ohio Univ.Engng Exp.Sta.News ~ (4), 22, 41 (1950):Fundamental Concepts in Sintering and Properties of OxideMetal Cermets
81. Soc.An. le Carbone-Lorraine, Brit.Patent 635,221 (1950): Processfor Producing Carbides of Tungsten and/or Molybdenum andTheir Sintered Alloys
82. W.O. Sweeny, Tool Engnr 24 (5),21 (1950):of Metamics --
83. H. Thurnauer, paper: Electrochem.Soc., C1eveland 1950: A Survey ofHigh Temperature Metals and Ceramics
84. E.M. Trent, A. Carter and J. Bateman, Metallurgia 42, 111 (1950):High Temperature Alloys Based on Titanium Carbide
85. O.J. Whittemore, paper: Electrochem.Soc., Cleveland 1950: Stabilized Zirconia Refractories
86. E. Ammann und J. Hinnüber, Stahl Eisen 71 (2), 1081-90 (1951): DieEntwicklung von Hartmetall-Karbiden in Deutschland
87. Baker and Co., Brit.Patent 661,147 (1951): Electrical ContactElements
88. A.R. Blackburn and T.S. Shevlin, J.Am.Ceram.Soc. 34, 327-31 (1951):Fundamental Study and Equipment for Sintering and Testingof Cermet Bodies. V. Fabrication, Testing and Propertiesof 30 Chromium - 70 Alumina Cermets
89. R.J. Bondley, Ceram.Age 58 (1), 15-8 (1951): Low Melting TemperatureSolders in Metal-Ceramic Seals
90. E. Bryjak, Hutnik 18, 14-24 (1951): Metallography of Sintered Carbides
91. J.E. Cline and J. Wulff, J.Electrochem.Soc. 98, 385-7 (1951): VaporDeposition of Metals on Ceramic Particles
Cobine and C.J. Gal1aher, Trans. AlME 70, Tl-143 (1951): NewElectrodes for Stabilizing Inert Gas Welding Arcs
Cooper and L.E. Colteryahn, NACA-RM-E51-110 (1951): The ElevatedTemperature Properties of Titanium-Carbide Base CeramalsContaining Nickel and Iron
Crandal1, NP-3243 (1951): Fundamental Properties of MetalCeramic Mixtures at High Temperature
Crandall and W.G. Lawrence, NP-1949 (1951): Fundamental Properties of Metal-Ceramic Mixtures at High Temperatures
Cronin, Am.Ceram.Soc.Bull. 30 (7), 234-8 (1951): RefractoryCermets
97. E. Dürrwächter, German Patent 807,416 (1951): Material für Elektrische Kontakte
98. W.J. Engel, Metal Progr. 22 (5), 664-7 (1951): Bonding Investigationsof Titanium Carbide with Various Elements
- 16 -
99. J.W. Freeman and H.C. rrross, NACA-RM-51D 23; 23 a (1951): Notes CaHeat-Resistant Materials in Britain from Technical Mission
100. C.G. Goetzel et al., PB-I09 766; PB-I09 767 (1951): Investigationof Infiltrated and Sintered Titanium Carbide
101. C.A. Hoffmann, G.M. Ault and J.d. Gangler, J.Am.Ceram.Soc. 34, 123(1951): Initial Investigation of Carbide-Type Ceramel ofBO %Titanium Carbide and 20 %Cobalt for Uses as GasTurbine-Blade Materials
102. E.W. Holman and E.J. Soxman, PB-I07 676 (1951): Investigation ofa Method of Casting Cermets Dispersed by Mechanical Means
103. Igramic Electric Co., Brit.Patent 653,796 (1951): Electrical Contacts and Contact Materials
104. Igramic Electric Co., Brit.Patent 65B,470 (1951): ElectricalSwi tch Contacts
105. W.D. Kingery, M. Economos, M. Humenik and M. Berg, NEPA-IB48 (1951):Final Report on Development of Metal-Ceramic CompositionsSuitable for Service at Elevated Temperatures
106. W.J. Koshuba and J.A. Stavrolakis, Iron Age 16B (22), 77-BO; (23),154-B, 171-6 (1951): Cermets May Answer Jet Designer'sPrayers
107. W.J. Lidman and H.J. Hamjian, Product Engng 11 (10), 147-50 (1951):Metal Refractory Alloys
lOB. C.C. McBride, H.M. Greenhouse and T.S. Shevlin, paper: 53rd Ann.Meeting Am.Ceram.Soc., Chicago 1951: Cermets VI A Preliminary Study of the Oxidation ond the Physical Properties ofTiC-Base Cermets
109. S.S. Manson, PB-I09 B35 (1951): Behavior of Materials under Conditions of Thermal Stress
110. E. Meyer-Hartwig, Z.Metallkde 42, 302-B (1951): Uber Halbmetallemit kontinuierlichen Ubergangseigenschaften
111. B.C. Miller and W.H. Bridges (eds.), ORNL-910 (1951): MetallurgyDivision Quarterly Progress Report
112. B.T. Montgomery et al., ATI-117 7Bl; PB-lOB 765 (1951): Impregnationor Carbide Skeletal Bodies wi th Selected Metals 'or Alloys
113. D.G. Moore et al., NACA-TN-2329 (1951): High Temperature Protectionof a Titanium Carbide Ceramal with a Ceramic Metal CoatingHaving a High Chromium Content
114. D.G. Moore et al., NACA-TN-23B6 (1951): Studies of High TemperatureProtection of a Titanium Carbide Ceramal by Chromium-TypeCeramic Metal Coatings
115. J.A. Nelson et al., J.Electrochem.Soc. 9B, 456-73 (1951): Refractory Bodies Composed of Boron and~itaniumCarbides Bondedwith Metals
116. J.T. Norton, Powder Met. Bull. 2 (2), 75-B (1951): Significance ofBinder Metal in Sintered Hard Metals
117. F.H. Norton and W.D. Kingery, NYO-3136 (1951): The Study of MetalCeramic Interactions at Elevated Temperatures
11B. W.C. Patton, Iron Age 16B (17), 57 (1951): Sintered ChromiumCarbide Hard Metal
- 17 -
119. J.C. Redmont, Metal Progr. 60 (1), 75 (1951): Bonding of TitaniumCarbide
120. L.T. Richardson and M.R. Swinehart, U.S. Patent 2,572,662 (1951):Contact Body
121. J.M. Robertson, paper: Symp. High-Temperature Steels and Alloys forGas Turbines, London 1951: Future Needs in Materials forLand and Marine Gas Turbines
122. W. Seith und H. Schmeken, Festschr. 100jähr. Jubil. W.C. Heraeus(1951), 218-42: Sinterwerkstoffe aus metallischen undnichtmetallischen Pulvern
123. T.S. Shevlin and C.A. Hauck, J.Am.Ceram.Soc. 34, 327-31 (1951):Fhbrication, Testing and Properties of 30 %Chromium 70 %Alumina Cermets
124. K.V. Shooter, Research ~ (3), 136-9 (1951): Frictional Propertiesof Tungsten Carbide and of Bonded Carbides
125. Skoda Works, Brit.Patent 659,763 (1951): A Method of ProducingSintered Hard-Metal Alloys
126. J.R. ~inklepaugh et al., PB-I09 030 (1951): Oxidation of TitaniumCarbide Containing Small Substitutionsof Various Metals
127. J.R. Tinklepaugh et al., PB-I09 031 (1951): Oxidation Studies ofIron and Chromium Bonded Titanium Carbide
128. R.C. Turnbull, PB-I08 028 ~1951); PB-115 246 .•• 9; PB-115 351 (1951):Diffusion of cobalt, Iron and Nickel into Titanium Carbide
129. J.H. Westbrook and J. Wulff, paper: Am.Ceram.Soc., Chicago (1951):The Thermal Shock Resistance of Metallized Hollow CeramicCylinders
1952
130. Anon., Business Week (1952), No.1203, 66-76; Iron Age 170 (13), 56(1952); West.Mach.Steel World 43 (11), 131 (1952): TitaniumAlloy Explodes into Production
131. Anon., Iron Age 170 (16), 114 (1952): Moly-Based Metal-CeramicDesigned for High Temperature Use
132. British Thomson-Houston Co., Brit.Patent 680,698 (1952): Methodsfür Making and Casting Cemented Carbide Articles
133. L.A. Connant and D.M. Gil~s, U.S. Patent 2,656,596 (1953); Brit.Patent 668,682 (1952): Tungsten-Chromium-Alumina MetalCeramics
134. W.B. Crandall and M.A. Tuttle, NP-4135 (1952): Evaluation Techques for High Temperatur Metal-Ceramic Materials
135. F.K. Davey, E.R. Glabou and G.E. Lorey, PB-I09 701 (1952): TitaniumNitride Cermets
136. W. Dawihl, Z.Metallkde 43 (1), 20-2 (1952): Sintern von Wolframkarbid-Kobalt Hartmetallen als Oberflächenreaktion
137. W. Dawihl, Microtecnic ~ (3), 165-73 (1952): Grain Formation inHard Metal Alloys
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138. G.C. Deutsch, A.J. Meyer jr. and W.C. Morgan, NACA-E52K13 (1952):Preliminary Investigation of Several Root Designs for(Titanium Carbide) Ceramal Turbine Blades in TurbojetEngines
139. F. Eisenkolb, Elektrotechn. &, 548-53 (1952): PulvermetallurgischeWerkstoffe der Elektrotechnik
140. G.E. Evans, Iron Age 170 ( ), 93 (1952): Wanted: Better Materialsfor Nuclear Reactors
141. J.L. Everhart, Materials and Methods 37, 92-6 (1952): Which Metalfor Jet Engine Blades?
142. H. Federspiel, U.S. Patent 2,599,751 (1952): Welding Process toJoin a Metal Body and a Semiconducting Body Composed ofMetallic and Ceramic Material
143. C.G. Goetzel, Treatise on Powder Metallurgy (Interscience, New York,1952), Vol. Irr, Classified and Annotated Bibliography, Part2, Patent Survey, 493-6: Composite and Coated Powders; 575639: Hard Metal Compound Compositions; 640-62: ElectricalMaterials and Products
144. H.M Greenhouse, J.Am.Ceram.Soc. ]2, 271-4 (1952): Oxidation Products Which Contribute to the Oxidation Resistance of TiCBase Cermets
145. H.W. Greenwood, Mach.Lloyd~, 89-91 (1952): Ceramics and Metallurgy
146. J. Gurland and J.T. Norton, H.Metals 4, 1051-6 (1952): Role of theBinder Phase in Cemented Tungsten Carbide-Cobalt Alloy
147. R.S. Gurnick and A.L. Cooper, NACA-RM-E52E27 (1952): InfiltrationofTitanium Carbide with Several Metals
148. H.J. Hamjian and W.C. Lidman, J.Am.Ceram.Soc. ]2, 44 (1952): BoronCarbide as a Base Material for a Cermet
149. M. HilI, M.W. Taylor, G.S. Mikhalapov, E.G. Touceda, C.L. Clark,W.V. Knopp and H.D. Shaw, WADC-TR-52-106 (1952); PB-lll 286 (1952):
Production of Cermets by Flash Sintering Process
150. C.A. Hoffman and A.L. Cooper, NACA-RM-E52H05 (1952): Investigationof Titanium Carbide Base Ceramals Containing Either Nickelor Cobalt for Use as Gas Turbine Blades
151. W. Hofmann und E. Schmalenbach, Arch.Eisenhüttenwes. 23, 136-43(1952): Uber den Verbund zwischen Sinterwerkstoffen undkompakten Metallen
152. Igramic Electric Co., Brit.Patent 683,343; 684, 199 (1952): ContactBody
153. M. Kantzer, Metaux (Corrosion~ndustrie) 27 (328), 506-10 (1952):Les Cermets
154. H.V. Kinsey, Can.Metals 15 (11), 28-30; (13), 20-4 (1952): HighTemperature Alloys for Gas Turbines - A Review
155. C. Konopicky, Tech.Mitt. 45, 395-400 (1952): Hochfeuerfeste Sonderbaustoffe
156. S. Krapf, German Patent 853,069 (1952): Metallische Agglomerate
157. E. Lardner and N.B. Gregor, J.Inst.Metals 80 (7), 369-74 (1952):Determination of Elastic Constants and Stress-Strain Relationship to Fracture of Sintered Tungsten Carbide-CobaltAlloys
161. C.C.
162. C.C.
163. L.R.
164. L.E.
165. G.B.
166. B.T.
167. J.A.
- 19 -
158. V. Licini, Ceramics (Milan) 1 (9), 57 (1952): Cermet
159. W.G. Lidman and H.d. Hamjian, J.Am.Ceram.Soc., 35, 236-40 (1952):Reactions During Sintering of a Zirconium Carbide-NiobiumCermet
160. M. Litmann and Metro-Cutanit Ltd., Brit.Patent 674,128 (1952):Wear-Resistant Materials
McBride, Metal Progr. 61, 84 (1952): Polishing Cermets
McBride, H.M. Greenhouse and T.S. Shevlin, J.Am.Ceram.Soc.35, 28-32 (1952): A Preliminary Study of the Oxidationand Physical Properties of TiC-Base Cermets
McCreight, KAPL-M~LRM-7 (1952): Thermal Expansion Measurements of Six Fuel Materials
Marchi, J.A. Stavrolakis and E.P. Flint, WADC-TR-52-327 (1952):Research on the Application of Fundamental Concepts of Bonding Metals and Ceramics
Massengale, L.E.Mong, M.B. Stiefel and R.A. Heindl, NBS-1624(1952): Interim Report on Evaluation of Tests for Cermetsas Components of Heat Resistant Materials
Montgomery and J.A. Lytle, WADC-TR-52-166 (1952): NickelMagnesia Cermet Coatings
Nelson et al., WADC-TR-52-111 (1952): Metal Bonded TitaniumBoride
168. F.H. Norton and W.D. Kingery, NYO-3139 (1952): Study of MetalCeramic Interactions at Elevated Temperatures
169. B.P. Planner, Steel 131 (18), 98-100, 102 (1952): High TemperatureMetallurgy
170. B.P •• Planner, Western Mach. Steel World 43 (6), 105, 117-8; (7),83-5, 97; (8), 93-5, 107 (1952): Extremely High TemperatureMaterials
171. Rutgers Univ. N.J., Ceramic Res. Station, NP-4020 (1952): CeramicMetal Bodies for Use as Aircraft Power Plant Parts Subjectedto Elevated Temperatures
172. M. Schwartz (ed.), WADC-TR-52-327 (1952): Proceedings of the WADCCeramic Conference on Cermets
173. P. Schwarzkopf, Proc.lnt.Symp. Reactivity of Solids, Gothenburg1952, 1027-41: High Temperature Materials Produced byPowder Metallurgy
174. T.S. Shevlin, WADC-TR-53-17 (1952): Development, Properties andInvestigation of a Cermet Containing 28 %Alumina and 72 %Chromium
175. R. Steinitz, Proc.Symp. Progress in Quality Electronic Components,Washington 1952: Metallic Refractories - New Materials forthe E1ectrical Industry
176. A.D. Stevens and J.C. Redmond, Metal Progr. ~, 124-8, 148 (1952):Testing Cemented Carbides
177. A.W. Treptom, U.S. Patent 2,725,353 (1952): Bonded Tantalum Bodies
178. Union Carbide and Carbon Corp., Brit.Patent 679,804 (1952): AluminaMetal Ceramics
185. Anon. ,
186. Anon. ,
187. Anon. ,
188. Anon. ,
189. Anon. ,
190. Anon , ,
(1953): Materials for High Temper-
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119. A. Vambersky, Hutnicke listy ~ (3), 129-32 (1952): Materials forGas Turbines
180. H. Vatter, Glas- und Hochvakuumtechn. __ ' 79-85 (1952): Die Keramik-Metall-Löttechnik
181. R.H. Warring, Ceramics~, 472-6 (1952): Super Refractories
182. Watt Glühlampen und Elektrizitäts-AG, Austrian Patent 171,413(1952): Herstellung von Teilen aus Hartmetall-Legierungen
183. J.H. Westbrook, Am.Ceram.Soc.Bull. 31, 205-8; 248-50 (1952):Metal-Ceramic Composites (I/rr)
1953
184. R.A. Alliegro and J.R. Tinklepaugh, WADC-TR-53-55 (1953): Invest-igation of the Bonding of Silicon Carbide by Metals
Automobile Eng. 43 (565), 157 (1953): Cerametallic BrakeLinings
Chem.Eng.News 31 (19), 1976, 1978 (1953): Silicon-BasedCermets May be Useful in Aircraft Engines
Materials and Methods 37 (6), 69-72 (1953): Materials withHigh Strength at High Temperatures
Materials and Methods 38 ( ), 188, 190 (1953): ImpactStrength of Newer Cermets
Product Eng. 24 (4), 5 (1953): New Cermet
Trans. ASME 12 (2), 127-36 (1953): Gas-Turbine ProgressReport. Materials, Cooling and Fuels
191. H.N. Barr, L. Marchi, J.A. Stavrolakis and H.H. Rice, WADC-TR-53356; AD-17 501; PB-117 936 (1953): Research on Applicationof Fundamental Concepts of Bonding Metals and Ceramics
192. F. Benesovsky (ed.), Pulvermetallurgie (Metallwerk Plansee, 'Reutte/Tirol, 1953)
193. E.S. Bomar, CF-53-5-190; CF-53-9-179 (1953): Solid Fuel Plates ofAluminum and U
30 8194. W.H. Bridges, ORNL-1503 (1953): Metallurgy Div. Quart. Progress
Report for Period Ending Jan.31, 1953
195. L.A. Conant and D.M. Gillies, U.S. Patent 2,656,596 (1953): Sintered Cermet Bodies
196. W.B. Cottrell (ed.), ORNL-1515 (1953): Aircraft Nuclear PropulsionProject Quarterly Progress Report for Period Ending March 10,1953
197. H.C. Cross, Ind. Heating __ ,ature Service
198. W. Dawihl, German Patent 868,031 (1953): Elektrisches Element, insbesondere Elektrode zur Elektrolyse und elektrischen Hochtemperatur-Fusion
199. W. Dawihl, Z.Metallkde 44 (2), 69-70 (1953): Comments on the Workof J. Gurland an~J.T. Norton on Skeleton Formation inSintered Carbide Alloys
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200. G.C. Deutsch, A.J. Meyer and W.C. Morgan, NACA-RM-E52K13 (1953):Preliminary Investigation in J-33 Turbojet Engine of SeveralRoot Designs for Ceramal Turbine Blade
201. G. Economos, Ind.Eng.Chem. 45 (2), 458-9 (1953): Behavior of Refractory Metal OxideS-in Conjunction with Metals at HighTemperatures
202. F. Eisenkolb und W. Richter, Wiss.Z. TH Dresden 2, 71-80 (1953-4):Einige Untersuchungen an gesinterten Verbundwerkstoffen ausmetallischen und nichtmetallischen Bestandteilen
203. J .L. Everhart, Materials and Methods 27, 92-6 (1953): Which MetalForm for Jet Engine Blades?
204. Fansteel Products Co., German Patent 765,479 (1953): SinteredHard-Metal Alloys
205. I.M. Fedorchenko, Izvest.Akad.Nauk SSSR, Otdel, Tekh.Nauk (1953),393-406: The Laws of the Process of Setting MetalloceramicBriquets in Sintering
206. H.J. Goldschmidt, Brit.Patent 692,486 (1953): Sintered IronTungsten Carbide
207. J.W. Graham, U.S. Patent 2,654,145 (1953): Oxidation-ResistantHard Carbide Composition
208. H.M. Greenhouse and H.W. Newkirk, NP-4838 (1953): Study of theMicrostructure of Cermets
209. W.L. Havekotte, Metal Progr. 64, 67 (1953): Super Refractoriesfor Use in Jet Engines
210. C.A. Hoffman, NACA-Res.Memo-E52L15a (1953): PreliminaI'Y' Investigation of Zirconium Boride Ceramals for Gas Turbine BladeApplications
211. C.A. Hoffman, NACA-RM-E53G07 (1953): lnvestigation of a ChromiumPlus Aluminum Oxide Metal-Ceramic Body for Possib1e GasTurbine B1ade Application
212. W.D. Jones, Metal lnd. (1953), 32: Metal Ceramics
213. J.D. Kennedy, Prod.Eng. 24 (8), 154-7 (1953): Cemented ChromeCarbides
214. W.D. Kingery, J.Am.Ceram.Soc. ~, 362 (1953): Metal Ceramic lnteractions. I. Factors Affecting Fabrication and Propertiesof Cermet Bodies
215. W.D. Kingery and G. Economos, J.Am.Ceram.Soc. ~, 403-9 (1953):Metal Ceramic lnteractions. I1 Metal Oxide Interfacia1Reactions at Elevated Temperatures
216. W.D. Kingery and M. Humenik jr., NYO-3143 (1953): Study of MetalCeramic Interactions at Elevated Temperatures: SurfaceTension. I. Furnace and Method for Use of the Sessile DropMethod; Surface Tension of Si, Fe and Ni.
217. W. Kinna nnd o. RUdiger, Arch.EisenhUttenwes. 24, 535-42 (1953):Der Oxydationsvorgang in Titankarbid-Kobalt-Hartmetallen
218. E.P. Knudson, Ceram.Bu1l. 32 (4), 156 (1953): Physical Characteristics of Titanium-Base Cermets at Elevated Temperatures
219. S. Krapf, German Patent 860,557 (1953): Metallic Agglomerates
220. A.E. Lessor, paper: Electrochem.Soc., Pittsburgh 1953, abstractNo.48: Cermet Films
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221. A. Lorenz, G1as- und Hochvakuum-Technik 2, 247-9 (1953): Conducting Sintered Bodies (Cermets) for-E1ectric Leads in FusedQuartz Vacuum Devices
222. D. McNair, R.T. Lynch and N.B. Hannay, J.App1.Phys. 24, 1335-6(1953): Mo1ded Thermionic Cathodes
223. P.B. McSherry, Iron Age 172, 100-1 (1953): Metal Ceramic WallLengthens Thermocoup1e Life
224. Ma110ry Meta11urgica1 Products, Brit.Patent 690,540 (1953): E1ectrica1 Contacts
225. W.A. Maxwell and R.W. Smith, NACA-RM-E53F26 (1953): Thermal ShockResistance and High Temperature Strength of MOSi
2-A120 3226. A.J. Meyer, G.C. Deutsch and W.C. Morgan, NACA-E53G02 (1953): Pre
1iminar~ Investigation of Several Root Designs for (TitaniumCarbide) Cermet Turbin Blades in Turbojet Engines. 1L RootDesign Alterations
227. E.T. Montgomery and P.E. Rempes jr., WADC-TR-53-164 (1953): Exploratory Study of Nickel-Magnesia Cermets
228. H.W. Newkirk et al., AD-22891 (1953): Study of the Microstructureof Cermets
229. F.H. Norton,W.D. Kingery, G. Economos and M. Humenik jr., NYO3144 (1953): Metal-Ceramic Interactions at Elevated Temperatures
230. F.H. Norton, W.D. Kingery, F.A. Halden and M. Berg, NYO-6289(1953): Study of Metal-Ceramic Interactions at ElevatedTemperatures
231. Ohio State Univ. Res. Foundation, Progress Report No.3, ContractAF33(616)-472 (1953): Cermet Development
232. A. Pechman, Chem.Eng. §Q, 186-90 (1953): Ceramics for High Temperatures
233. A. Pechman, Finish 10, 37-8, 86, 88; Ceram.Age 62 (5), 27, 31, 34(1953): Cermets - Possib1e Answer to Ultrahigh Temperatures
234. H. Pfau und W. Rix, Techn.wiss.Abhandlgn der OSRAM-Ges. ~, 193-201(1953): Untersuchungen im System Co-WC
235. L.B. Pfeil, Materials and Methods 21, 79 (1953): How to Eva1uateHigh Temperature Performance of Materials
236. L.T. Richardson and M.R. Swinehart, U.S. Patent 2,654,945 (1953):E1ectrica1 Contact
237. H.R. SalIer, S.T. Stacey, N.S. Eddy and H.l. K1ebanov, BMl-834(1953): Creep strength of Uranium A110ys at 1500-1800 °F
238. M.A. Schwartz, E1ectrica1 Mfg 2}, 144-8 (1953): Ceramic Metals forComponent Design
239. S. Skorba, Naturwiss. 40, 605 (1953): Ein Verfahren zur Präparation von Uranoxid-Schichten auf Aluminium
240. E.J. Soxman, WADC-TR-53-370; AD-27514 (1953): An lnvestigation ofa Method of Casting A110y Titanium Carbide Cermets
241. Staff, Aviation Week (Feb.23, 1953), 36-7: Cermets May Help JetsOperate Hotter
242. R. Steinitz and I. Binder, Powd.Met.Bull. 6, 123-5 (1953): NewTernay Boride Compounds
- 23 -
243. M.S. Tacvorian, Recherche aeronaut. 33, 51-6 (1953): Modern Refractory Material: (Sintered)~lumina-ChromiumMixtures,or 'Chromal'
244. M.S. Tacvorian, French Patent 1,035,941 (1953)~ Cermets
245. J.R. Tinklepaugh et al., WADC-TR-53-369 (1953): Iron Bonded Titanium Carbide
246. R.C. Turnbull, PB-lll 612; Am.Ceram.Soc.Bull. 32 (4), 145 (1953):Diffusion of Iron, Nickel and Cobalt into Hot PressedTitanium Carbide
247. R.C. Turnbull andW.G. Lawrence, NP-4735 (1953): Study of BasicMechanism of Diffusion of Metals into Ceramic Materials
248. B. Wäser, Werkstoffe und Korrosion i, 397-9 (1953): Hochhitzebeständige Werkstoffe und Cermets
249. L.H. deWald, Tooling and Production (Feb.1953), 31-4; (March 1953),52-6: Cemented Carbides: Their Development and Application
250. H.A. Wilhelm, H.J. Svec, A.I.Snow and A.H. Danne, AECD-3275 (1953):High Temperature Thermocouples
251. L.S. Williams and P. Murray, AERE-M/R-1242 (1953): Bonding inCermets
252. C.R. Wilson and A. Langer, Nucleonics 11 (8), t8 (1953): Electrodeposition of Uranium Oxide on Aluminum
253. R.R. Wilson, WADC-TR-53-369 (1953); AD-29 399 (1953): Iron BondedTitanium Carbide
254. J .R. Wilson, Am.Ceram.Soc.Bull. E, 375-6 (1953): High TemperatureProtection of a Titanium Carbide Cermet
255. J.M. Zimmer, General Electric Report (Sept.1953): Method of ProofLoad Testing Dovetail Section of Cermet Turbine Buckets
256. C. Agte and J. Vacek, Pokroky praskove met. (1954), 443-50: TheSavings of Cobalt When Employing Cermet Carbides
257. N.P. Allen and W.E. Carrington, J.Inst.Metals 82, 525-33 (1953-54);Metal Progr. 66, 182 (1954): Materials for 1000 °c (1832 °F)
258. R.A. Alliegro, J.R. Tinklepaugh et al., WADC-TR-54-38 (1954):Metal and Self-Bonded Silicon Car~ide
259. Anon., Am.Metal Market &! (134), 1 (1954): New TiC Cermet has noCobalt or Tungsten
260. Anon., Keram.Z. ~, 104-5 (1954): Cermet - Ceramic Metal - MetalCeramic
261. Anon., Metallurgia 53, (1954): New Heating-Element MaterialSuitable forTemperatures up to 1600 °C
262. Anon., Steel 134, 105 (1954): Cermets - A Flash Sintering ProcessBeing Used to Produce Turbojet Engine,Blades
263. G.M. Ault and G.C. Deutsch, J.Metals 6, 1214-30 (1954): The Applicability of Powder Metallurgy to High Temperature Problems
264. W. Ballas et al., Bull.Am.Phys.Soc. 20, 29 (1954): Oxide-InpregnatedNickel Matrix Cathode
- 24 -
265. M. Basche, R.G. Bourdeau and F. Wulff, WADC-TR-54-211 (1954):Joining of Titanium Carbide-Nickel Cermets
266. D.G. Bennett et al., AD-38 003 (1954): High Temperature ResistantCeramic Coatings - Ceramic and Metal-Ceramic Bodies
267. D.G. Bennett et al., A}'-TR-6540 (1954): RefractQry Bodies Composedof Baron and Titanium Carbides Bonded with Metals
268. T.H. Blakeley, Report (Battersea Polytechnic, London, 1954): MetalCeramics: Structure, Manufacture and Properties
269. :'1. Blumenthal, AD-51 073 (1954), final report: Ceramics and CermetMaterials
270. N.P. Bogoroditskil, N.L. Polyakova, G.K. Kirrilova and A.M. Eidel'kind, Elektrichestvo (1954), No.7, 56-60: New Types of Electrical
Ceramics
271. L.B. Brownlee et al., Spec.Report No.58 (Iron and Steel Inst.,London, 1954-6), 302-4: Effect of Carbon Content on theProperties of WC-Co Hard Metal
272. D.G. Burnside, U.S. Patent 2,667,431 (1954): Metallizing Ceramics
273. T.L. Charland et al., WADC-TR-54-414 (1954): Ceramic and CermetMaterials
274. J. Chudo'ba , Pokroky pr~skove met , (1954), 490-7: ElectroerosiveMachining of Cermet Carbides
275. C.L. Clark, Metal Progr. 22, 72-6 (1954): American Development inAlloys for High Temperatures
276. H.R. eJauser, Materials and J~hods 39, 117-32 (1954): Materialsfor High Temperature Service
277. P.G. Cetter, J.A. Cohn and R.A. Potter, U.S.Bur.Mines R.I. 5 100(1954): Improved Tungsten Carbide-Cobalt Compacts by ElectricResistance Sintering
278.'N. Cremens et al. , AD-37 311 (1954): Research on Mechanical Properties of Sintered A1uminum Powder. I. Wrought Nickel-AluminumProducts for High Temperature Use. rr. Oxide-Metal StructureStudies
279. M. Deri, Tecb.ung. 1., 92-6 (1954); Pe r-t Lgungs t echn • .± (12), 669,893 (1954): Metallgebundene Keramiken
280. P. Duwez, ScLAmerican 191 (3), 99-106 (1954): High TemperatureMaterials
281. N. Engel, Powd.Met.Bull. 7, 8-18 (1954): Properties of MetallicPhases as a FunctiOn of Number and Ki~d of Bonding Electrons
282. V.D. Frechette, Ceram.lnd. 22 (3), 79, 80, 110 (1954): Cermet Development
283. V.D. Frechette, NP-1467 (1954): Fundamentals of Metal-Ceramic Mixtures at High'Temperatures
284. V.D. Frechette and J .A. Hedva.ll, in: Pulvertechnik (Ingeniorsvetenskapsakademi, Stockholm, 1954), 24-32: Cermets, theNew Ceramics
285. J.J. Gangler, J.Am.Ceram.Soc. 37, 312-6 (1954): Resistance ofRefractories to Molten Lead-Bismuth Alloy
286. E. Gebhardt und W. Obrowski, Z.Metallkde 45, 333-8 (1954): Uberden Aufbau des Systems Kupfer-Blei-Sauerstoff
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287. F.W. Glaser, Planseeber.Pulvermet • .,g, 59-70 (1954): ProgressReport on Cermets
288. J.W. Gra~am, Machine Design 26 (5), 159-62 (1954): Endurance atHigh Temperature is the Outstanding Property of One of theNewer Cemented Carbides
289. J. Gurland, J.Metals ~ (2), 285-90; Trans. AI1ffi 200, 285-90 (1954):A Study of the Effect of Carbon Content on the Structure andProperties of Sintered Tungsten Carbide-Cobalt Alloys
290. G.T. Harris and H.C. Child, paper: Symp. on Powder Me~, Iron andsteel Inst., London 1954: The Rupture Strength of someMetal-Bonded Refractory Oxides
291. W.L. Havekotte, AD-29 415 (1954): Ti tanium-Carbide Program
292. J. Hinnüber, Tech.Mitt.Krupp 12 (1), 5-12 (1954): Hard Metals w:LthSpecial Physical and Chemical Properties
293. C.A. Hoffman, J.lnst.Metals 21 (10), 878 (1954): Pre1iminary Investigation of Zirconium Boride Ceramals for Gas-TurbineBlade Application
294. A.E. Johnson jr., PB-116 110; NACA-TN-3309 (1954): Mechmlica1Properties at Room Temperature of Four Cermets of TungstenCarbide with Cobalt Binder
295. A.I~. Johnson jr., PB-1l4 995; NACA-TN-3197 (1954): MechanicalProperties at Room Temperature of FO'J.r Cermets of TitaniumCarbide with Nickel Binder
296. A.D. Joseph et al., WADC-TR-55-32 (1954): The Heat Treatment, Reinforcement and Cladding of TitanilUll Carbide Cermets
297. W.D. Kingery, J.Am.Ceram.Soc. 37, 42-5 (1954): Absolute Measurement of Metal-Ceramic Interfacial Energy and the Interfacial Adsorption of Si from Fe-Si Alloys
298. W.D. Kingery and M. Humenik jr., J.Am.Ceram.Soc. 37, 18-22 (1954):Surface Tension and Wettability of Metal-Ceramic Systems
299. W.D. Kingery and F.H. Norton, NYO-6296 (1954): Study of ~1etalCeramic Interactions at Elevated Temperatures. SurfaeeTensions of Iron-Nitrogen and Nickel-Indium Al10ys
300. F.P. Knudsen, R.E. J\~oreland and R.F. GeIler, WADC-TR-54-1 (1954):Physical Characteristics of Ti tanium Carbide-Base Cermetsat Elevated Temperatures
301. S. Krapf, German Patent 915,391 (1954): Metallagglomerate durchthermische Reaktion
302. S. Krapf, Ber.Deut.Keram.Ges. 31, 18-21 (1954): Das re8~tionsthermische Verfahren
303. W.G. Krauch, AlITL-5268 (1954): Urania-Zirconium Cermets
304. E.I. Larsen, A.S. Doty and D.A. Williams, U.S. Patent 2,669,512(1954): Electrical Contact Material
305. M. Littmann an1 Metro-Cutanit Ltd., Can. Patent 500,750 (1954):Wear-Resistant Materials
306. J. Lomas, Can.Machinery~ (6), 133-4 (1954); Machinery Lloyd ~(5), 77-8 (1954): New Carbides Resist Oxidation, Strongat High Temperatures
307. G.D. McTaggart, T.A. Willmore and D.G. Bennett, WADC-TR-54-194(1954): Metal Bonded Zirconium Diboride
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308. G.A. Meerson, Priroda 12, 45-51 (1954); Chim.lnd. 72, 1206 (1954):~ritted Alloy
309. E.T. Montgomery, Ohio Univ.Eng.Exp. Station news~, 39-40 (1954):Cermet Solid Bodies and Coatings for Gas Turbine EngineBlading and Metal Parts
310. N.C. Moore, BHt. Patent 710,562 (1954): Alumina-Chromium Cermets
311. P. Murray et a1., Trans.Brit.CerEoo.Soc. 53, 474-510 (1954): Practica1 and Theoretica1 Aspects of the Hot Pressing of Refractory Oxides
312. H. nowotny et al., Z.Metallkde 45, 97-101 (1954): Das tern~reSystem Ti-W-C
313. A. Pechman, Aircraft Eng. 26, 157-60 (1954): Ceramics for HighTemperature Applications
314. A. Pechman, Finish 11, 35-'7, 64 (1954): Cermets and Ceramic CoatedMetals Team up with Jet Propu1sion
315. A. Pechman, Materials and Methods 39, 94-6 (1954): Two New HighTemperature Coatings --
316. T.W. Penrice arid D.H. Shote, paper: Symp. on Powder Met. 1954,277-81: The Testing of Ceramic Materials with Feferenc8 toa Simple Ti tanium Carbide/Cobalt Materi.al
317. B. Pinkel, G.C. Deutsch and N.H. Katz, nACA-E54D13 (1954): TheNACA Drop Test for the Eva'l.ua't i.ori of the Impact Strengthof Cermets
318. G.R. Pulliam and F:.S. Fitzsimmons, ISC-550 (1954): A Study of the'Reaction 01' Thorium wj_ th Same Pure Refractory Cornpounds
319. J. Quirk and C.G. Harmon, J.Am.Ceram.Soc. 37, 24-6 (1954): Properties of a Tin Cxide-Base Ceramic Body
320. W.G. Rauch, AlifL-5268 (1954): Urania-Zirconium Cermets
321. E.L. Reed, J.Am.Ceram.Soc. 37, 146-53 (1954): Stability of Refractories in Liquid Metals
322. L.D. Richardson sr., Am.Ceram.Soc.Bull. 12, 135-7 (1954); J.E1ectrochem.Soc. 101 (9), 222-4 (1954): Ceramics 1'01' Aircraft Propulsion Systems
323. C.K. RusselI, WADC-TN-WCLP-54-116 (1954): Engine Testing of Titanium Carbide Cermet Nozzle
324. C.K. Russell and A.W. Allen, Am.Ceram.Soc.Bull. 12 (4), 31 (1954):Heat-Treatment Studies 01' Coba1t- and Nf.cke L-Bonded TitaniumCa.rbide
325. A. Schulze, Umschau 54, 293-5 (1954): Metallkeramische Widerstandswerkstoffe für die Elektrotechnik
326. P. Schwartzkopf, Proc.lnt.Symp. on Reactivity of Solids (1954),Pt. 2, 1027-41: High-T emperature Mat erials Made by PowderMetallurgy
327. P. Schwarzkopf and W. Leszynski, Powd.Met.Bu11. 1, 19-21 (1954):note on the Relationship Between Britt1eness and Microstructure 01' Cermets
328. T.S. Shev1in and C.A. Hauck, WADC-TR-54-173 (1954), Pt.1: A1uminaBase Cermets
- 27 -
329. T.S. Shevlin and C.A. ffauck, J.Am.Ceram.Soc. 37, 140-5 (1954):Fabrication, Testing and Properties of~2 %Chromium 28 %Alumina Cermets
330. R. Steinitz, Machine Design 26 (11), 221-4 (1954): Cermets Materials for High Temperature Service
331. W. Stoner and J. Wulff, PB-118 268 (1954): Studies in the SystemNickel-Titanium-Carbon
332. B. Sutton, J.Inst.Prod.Engrs 22 (8), 449-?3 (1954); Metal lnd. ~(9), 172-3 (1954): Materials for Gas Turbines
333. N.R. Thielke, WADC-TR-53-9 (1954): Oxide-Base and Carbide-BaseMaterials
334. A. Vam.bersky, Pokroky praskove met. (1954), 166-76: Some SpecialProcesses of Powder Metallurgy
335. B.A. De Vincentis and W.E. Rusüell, NACA-RM-E54B15 (1954): Effectsof Some Metal Additions on Properties of Molybdenum Disilicide
336. R.F. Vines, U.S. Patent 2,673,167 (1954): Contact
337. B.C. Weber and P.S. Hessinger, J.Am.Ceram.Soc. 37, 267-72 (1954):Silicon-Base Cermets and Related Observations
338. A.E.S. White, F.K. Earp, 7.H. Blakeley and J. Walker, paper: Symp.on Powder Met., Iron and Steel Inst., London 1954: MetalCeramic Bodies
339. II.S. Williams and P. Murray, Metallurgia 49, 210-7 (1954): Bondingin Cermets
340. W.H. Woodward, in: Pz-oc , Metal Powd, Assoe. , Chicago 1954, 1, 51:Aircraft Applieations for Powder Metallurgy
341. L.A. Yerkovich and G.J. Guarnieri, WADC-TR-54-582 (1954): Compressive-Creep Properties of High-Temperature Materials
342. A.B. Altmann und LP. Melaschenko, Elektrotechn. 9, 444-6 (1955):Metallkeramische Materialien für elektrische Kontakte
343. Anon., Ceramies 2,271-3 (1955): Vapor Deposition of M~al onCeramie Partieles
344. Anon., Ind.Heating 1Z, 1869 (1955): Cermet Pcwder Combined withCermic Frit Provides Cohere~t Protective Coating
345. Anon., Materials and Methods 42,143 (1955): Cermets Coatings forHigh Temperature Protection
346. Anon., Metallurgia 51 (306), 185-6 (1955): Borides as Base forHigh Temperature Resistant Materials
347. Anon., Nat .Bur. Stand.Teeh.News Bull. 2.2., 112-4 (1954): ImprovedMethod for Applying Cermets
348. Anon., PB-121 413 (1955): Fundamental Properties of Metal-CeramicMixtures at High Temperatures
349. Anon., Steel 136 (9), 88-90 (1955): Materials for Turbine Blades
350. J.R. Baxter, Australasian Engr (Sept.1955), 45-50: Cermets
360. T.L.
361. J.F.
362. L.A.
363. W.B.
364. W.B.
- 28 -
351. R.J. Beaver, CF-55-6-13 (1955): Irradiation Experiments on U02-AlPowder Fuel Plates
352. W.W. Beaver, in: The Metal Beryllium (Am.Soc.Meta1s, Cleveland,1955), 57-98: Refractory Compounds and Cermets of Beryllium
353. W.C. Bell, R.D. Dillender, R.R. Lominac and E.G. Manning, WADC-TR53-193; J.Am.Ceram.Soc. 38, 396-404 (1955): Vibratory Compacting of Metal and Ceramic Powders
354. G. Bieler, Chem.lnd. 74 (6), 1163-74 (1955): Ceramics without aVitreous Phase: Their Special Properties
355. I. Binder and D. Moskowitz, AD-71 936 (1955); PB-121 346 (1955):Cemented Borides
356. T.R. Blakeley and A.E.S. White, in: De Re Metallica (MetallwerkPlansee , Reutte/Tirol, 1955), 335- 43 : Sil'ver Alumina Bodies
357. R. Blumenthal, WADC-TR-54-12 (1955): Ceramics and Cermet Materials.Investigation of the Effect of Raw Material Production Variables on tbe Physical and Chemical Properties of Carbides,Nitrides and Borides
358. T.A. Bragdon, WADC-TR-55-215 (1955): Evaluation of Cermets for &tEngine Turbine Blading
359. K. Bungardt, Stahl und Eisen 12 (21), 1383 (1955): Entwicklung vonhochwarmfesten Werkstoffen
Charland et al., WADC-TR-54-414 (1955): Ceramic and CermetMaterial: Pressure-Carbonization of Carbon-Bonded SiliconCarbide-Graphite for Use in Uncoo1ed Rocket- Nozzles
Co11ins and R.W. Gerby', J .J'ii3';als 1, 612-5 (1955): New Refractory Uses for Silicon Nitride Reported
Cenant and D.M. Gillies, U.S. Patent 2,698,990 (1955): MetalCeramic
Crandall, LA-30-115-0R1)-498, WAL-13 (Alfred Univ. 1955): Exploratory Research in t~e Field of Container Materials forTitanium
Crandall and J .H. 2.' i n"k:l epaugh , in: Dc Re Metallica (IVIetallwerk Plansee , Reutte/Tirol, ·1955), 344-74 : High Temperature Materials and Methods of Evaluation
365. L.J. Crönin, Vide 10, 355-9 (1955): Thoria-Tungsten Cermet Cathodefor Pulse Magnetrons
366. J. Dempsey and E.F. Rexer, J.Appl.Phys. 26, 1163-5 (1955): Oxidimpragnierte Nickel-Matrixkathoden
367. A. Dziuba, in: F.Eisenkolb (ed.), Die Neuere Entwicklung der Pulvermetallurgie (VEB, Berlin, 1955), 444-54: Tränklegierungen,Pseudolegierungen und Kontaktwerkstoffe
368. F. Eisenkolb, Wiss.Annal. .1, 593-656 (1955): Neuartige Hochtemperaturwerkstoffe
369. R. Francis, A.D. Joseph, K.D. Scheffer, RTP. Riegert and J.R. Tinklepaugh, WADC-TR-55-489 (1955): Reinforcement and Cladding of Cermets
370. L. Franz, R.W. Flickinger and R.V. Carter, Boeing-Re~D-15 588(1955): Design, Fabrication and Testing of Cermet SimulatedFirst-Stage Turbine Wheels
371. B. Gisner, Swedish Patent 149,336 (1955): Sintered Hard-Metal Body
- 29 -
372. F.W. Glaser, Metal Progr. 67 (4), 77-82 (1955): Progress Reporton Cermets -
373. C.G. Goetzel and L.P. Skolnick, in:De Re Metallica (MetallwerkPlansee, Reutte/Tirol, 1955), 92-8 : Some Properties of aRecently Developed Hard Metal Produced by Infiltration
374. J. Gurland and P. Bardzi1, J.Meta1s 7, Trans. AlME 203, 311-5(1955): Relation of Strength, Composition and Grain Sizeof Sintered WC-Co Al10ys
375. J. Gurland andJ.T. Norton, in: De Re Meta1lica (Metallwerk Plansee, Reutte/Tirol, 1955), 99-110: The Ro1e of the BinderPhase in Cemented Carbides
376. W.L. Havekotte, in: De Re Metallica (Metallwerk Plansee, Reutte/Tiro1, 1955), 111-29: Titanium Carbide-Base Cermets
377. J.A. Hedvall, in: De Re Metal1ica (Metallwerk Plansee, Reutte/Tir-oL, 1955), 1- 7: Diffusion in einigen Oxydsystemen
378. R.H. Herron, Am.Ceram.Soc.Bull. 21, 395-8 (1955): Friction Materials - A New Field for Ceramics and Cermets
379. G. Jäger, Metall 9, 358-66 (1955): Keramische Sonderwerkstoffefür metallurgische Zwecke
380. D.W.P. Jenkins, Vakuum-Techno 1, 107-12 (1955): Vakuumdichte Keramik~Metall-Verbindungen
381. A.D. Joseph et a1., paper: Am.Ceram.Soc., Cleveland 1955: Effectof Time at High Temperatures on Physical Properties ofNi-TiC-Cermets
382. W.D. Kingery et al., Am.Ceram.Soc.Bull. 34~ 117-9 (1955): Note onReactions of Metals with TiC and TiN
383. W.D. Kingery and F.H. Norton, NYO-6296 (1955): Study of Meta1Ceramic Interactions at E1evated Temperatures
384. W.D. Kingery and F.H. Norton, NYO-6451 (1955): Measurement ofThermal Conductivity of Refractory Materials
385. F.P. Knudsen, R.E. Mo~eland and R.F. GeIler, J.Am.Ceram.Soc. 38,312-23 (1955): Physical Characteristics of Titanium CarbideType Cermets at Elevated Temperatures
386. W.J. Kramers et al., AWRE-0-15/55 (1955): Investigation of Refractory Metal-Oxygen Systems for Possible New CeramicCompositions
387. G.S. Krefmer, O.S. Safonova and A.I. Baranov, Zhur.Tekh.Fiz. 25(1), 117-24 (1955): Temperature and Grain Size Dependenceof Strength of Tungsten Carbide-Cobalt Cermets
388. D.T. Livey and P. Murray, in: De Re Metallica (Metallwerk Plansee,Reutte/Tirol, 1955), 375-401: The Wetting Properties ofSolid Oxides and Carbides by Liquid Metals
389. R.A. Long, Metal Progr.68~ 123 (1955): Super Refractory Materials
390. W. McFarlane, J.Roy.Tech.Coll.Met. Club (1955/56), No.18, 15-9:A Study of Some Nickel-Magnesia-Binary Cermets
391. M.W. Mallett, A.F. Gerds, A.W. Lemmon and D.L. Chase, BMI-I028(1955): The Knnetics of Zirconium-U0 2 Reaction
392. F.A. Mauer, WADC-TR-55-473 (1955): Measurement of Thermal Expansionof Cermet Components by High Temperature X-Ray Diffraction
- 30 -
393. G.A. Meerson and A.N. Zelikman, Gosudarst.Nach.-Tekho.lzdatel'stvoLit.Chernoi i Tsvetnoi Met. (Moscow, 1955), 453-86: HardAlloys
394. E.T. Montgomery, T.S. Shevlin, H.M. Greenhouse and H.W. Newkirk,WADC-TR-54-33 (1955): Ceramic and Cermet Materials, Preliminary Microscopic Studies of Cermets at High Temperatures
395~. W.E. Moody, A.J. Taylor and J.R. Johnson, ORNL-1778 (1955): Preliminary Investigation of the Fission Product RetentionAbility of Cermets Compacts
396. D.G. Moore and J.R. CuthilI, Am.Ceram.Soc.Bull. 34 (11), 375-82(1955): Protection of Low Strategie Alloys with ChromiumBaron-Nickel Cermet Coating
397. F.H. Norton and W.D. Kingery, NYO-4630 (1955) (cf. NYO-3136 (1951),NYO-3139 (1952), NYO-3144/5 (1953), NYO-4632 (1955)): Studyof Metal-Ceramic Interactions at Elevated Temperatures:Surface Tension of Nickel Alloys; Wetting; Sintering
398. E.M Onitsch-Modl, in: De Re Metallica (Metallwerk Plansee, Reutte/Tirol, 1955), 427-41; Planseeber. 2, 42-56 (1955): Sinterverhalten, Mikrogefüge und Eigenschaften von Cr-A1
20 3-Cermets399. R. Palme and H.Wagner, Metall 2, 752 (1955): Herstellung von Mikro
zerreissproben aus schwer-bearbeitbaren Werkstoffen
400. H. Palmour, J.Electrochem.Soc. 102, 160-4C (1955): Review of HighTemperature Metal-Ceramic Seals
401. M. Petrdlik and V. Dufek, Hutnicke listy 10 (9), 528-35 (1955):The Effect of Carbon Content on the Properties of WC-CoSintered Carbides
402. K. Pfaffinger, H. Blumenthal and F.W. Glaser, ASTM Preprint No.94b(1955)= Titanium Carbide Base Cermets for High TemperatureService
403. B. Pinkel, G.C. Deutsch and W.C. Morgan, NACA-E55J04 (1955): Preliminar~ Investigation of Several Root Designs for (TitaniumCarbide) Cermet Turbine Blades in Turbojet Engines. Irr.Curved Root Design
404. H.B. Porter, PB-131 503 (1955): Rocket Refractories
405. V.S. Rakovski!, F.F. Smirnov, L.A. Rozhdestvenskir and 1.1. Kryukov,Reference Handbook: Use of Hard Alloys in Machine Building(Mashgiz, Moscow, 1955), Ch.2/3
406. W. Richter und G. Kammerieh , Silikattechn. 6, 528-34 (1955): EinigeUntersuchungen über Keramiken und Cermets zur Herstellungvon Schneidplatten
407. A. Richter, H. Weber und W. Wolf, German (East) Patent 8,886 (1955):Oxydkeramik-Verbindung
408. D.A. Robins and I. Jenkins, in: De Re Metallica (Metallwerk Plansee, Reutte/Tirol, 1955), 187-198: The Stability of SomeMetal Silicides of Potential Value in High TemperatureMaterials
409. H.A. SalIer, F.A. Rough, J.M. Fackelmann, A.H. Bauer and J.R. Doig,BMI-I023 (1955)= Phase Relations in the Uranium-ZirconiumOxygen Systems Involving Zr and U0
2
- 31 -
410. M.A. Schwartz, in: De Re Metallica (Metallwerk Plansee, Reutte/Tirol, 1955), 457-G4: Powder Ceramics - Powder Metallurgy: AReview of Relationship and Development
411. P. Schwarzkopf, in: De Re Metallica (Metallwerk Plansse, Reutte/Tirol, 1955), 199-204; Montan.Rundsch. 2 (7), 157-60 (1955):Gesinterte Hochtemperaturwerkstoffe
412. T.S. Shevlin and C.A. Hauck, J.Am.Ceram.Soc. 38, 45-54, 450 (1955):Fundamental Study and Equipment for Sintering and Testing ofCermet Bodies. vrr. Fabrication, Testing and Properties of34 A1203-66
Cr-Mo Cermets
413. R.W. Smith and A. Rose, French Patent 1,101,893 (1955): SwitchContact
414. R. Steinitz, Jet .Propulsion 25, 326-30 (1955): Cermets - New HighTemperature Materials
415. M.B. Stiefel, Am.Ceram.Soc.Bull. 34 (5), 133-7 (1955): Applicationof Photoelasticity to the Design of Tensile Specimens forCerami.c-Metal Materials
416. E. Strobel und W. Richter, in: F'.EiserJkolb, Die Neuere Entwicklungder PulveI~etallurgie (Akademie-Vlg, Ber1in, 1955), 419-29:MiscrJkeramische Werkstoffe
417. M. Sugiyama, Y. Mishima, K. Shida and S. lto, Sogoshikenjo Nempo 14,84-90 (1955): Researcb on the Sintering of IntermetallicAlloys. 1. Study on tbe Titanium Carbie Cermets
418. E.L. Swarts and W.B. Crandall, NP-5796 (1955): Fundamental Properties of Metal-Ceramic Mixtures at High Temperatures
419. M.S. Tacvorian, in: La Chimie des Hautes Temperatures (Paris, 1955),101-18: Les Mixtes Oxydes-Metaux: Le Chromal
420. N.R. Thie1ke, PB-121 046; WADC-TR-54-467 (1955): Ceramic and CermetMaterials. Refractory Materials for Use in High TemperatureAreas of Aircraft
421. J .R. Tinklepaugh et al. , WADC-TR-54-38 (1955), Pt.2: Metal andSelf-Bonded Silicon Carbide
422. B. Wliser, Kolloid-Z. 140 (2/3), 1:;9 (19:;5): Sintern von Metallenund Metal-Keramik-Verbindungen (Patent-Review)
423. J.lVI. Warde and J.R. Johnson, J.Franklin lnst. 260, 455-66 (1955):Recent Developments in the Technology of Ceramic Materialsfor Nuclear Energy Service
424. y....P. Wellard and R.J .A. Perfettini, Brit. Patent 723,842 (1955):Manufacture of Composite Metal-Ceramic Material
425. W.W. Wellborn, WADC-TR-55327 (1955): Ceramic and Cermet Materials •.~n lnvestigation of the Feasibility of Producing Metal BondedCarbide Eodies by the Extrusion Process
426. H. Wester and T. Wester, Brit. Patent 733,390 (1955): Manufactureof Metalloceramic Agglomerates by Exotherrnal Reaction
427. J .F. Whi t e , in: The Metal Beryllium (Am.Soc.Metals, Cleveland, 1955),599-619: Cermets and Ceramics. The Refractory Properties ofBeryllium Oxides
428. O.J. Whittemore jr., lnd.Eng.Chern. 47, 2510-2 (1955): Special Refractories for Use Above 1700 °C --
432. Anon , ,
433. Anon , ,
434. Anon , ,
435. Anon. ,
436. Anon , ,
- 32 -
429. L.A. Yerkovich wld G.J. Guarnieri, Proc. ASTM 55, 732-56 (1955):Compression Creep Properties of Severairiiietallic and CermetMaterials at High Temperatures
430. M.R. D'Amore, CF-56-11-130 (1956): Procedures Development at theOak Ridge National Laboratory for Fabricating StainJ.essStee1 Clad B
4C-CuComposite Plates
431. Anon., Am.Machinist 100 (20), 132 (1956): Russian and GermanCarbide Standards
Aviation Week 2.1, 41-2 (1956): New materials for MetalCutting Hold Promise for Production
Iron Age 177, 27-9 (1956): New Carbide Tool Drills CastIron Ten Times Faster (Cermet)
~Hachinery SS, 737 (1956): Ceramics as Cutting Materials
Metallurgia 22 (31S), 175 (1956): Properties of SinteredMolybdenum Si1icides and MolybdenlUll Silicide Alloys forHigh Temperature Purposes
Nucleonics 14 (6), 64 (1956): Ceramies - Versatile NuclearIVIat erials -
437. Anon., CTR-319 (1956): Cermets 1940-1955
438. Armour Research Foundation, Progr.Report B-OgOGl (1956): Researchon Phase Relationships in Ternary rJIetal-Metal-Oxygen Systems
439. E. Barnes, W. Munro, R.W. Thackray, J. Williams and P. Murray,Progr.Nucl.Energy Ser.V, l, 435-47 (1956): Preparation,Fabrication, and Properties of Uranium Carbide and Urani.um/Urani.um Carbide Cermets
440. J.R. Baxter arid A.L. Roberts, Spec.Report, Powder lVIet. (Iron andSteel Inst., London, 1956), 315-24: Development of lVIetalCeramics from lVIetal-0xide Systems
441. R. ,T. Beaver, CF-56-12-116 (1956): Irradiation Experiment on A1uminum Fuel Element Containing U
30s-Dispersion
442. W.W. Beaver and J .J. Theodore, paper: Am. Ceram.Soc., New York 1956:Cermets with Synthetic Mica
443. R. Bernard, Plansee Proc., 2nd Seminar (Pergamon "Press, London,1956), 41-9: Electron Microscope Exarninations of the Structure of Cemented Carbides
444. T.H. Blakeley and A.E.S. White, in: F.Benesovsky, War~~este undkorrosionsbeständige Sinterwerkstoffe (Springer, Wien, 1956),335-43: Silver Alumina Bodies
445. H. BlumenthaI and R. Silverman, J .Metals §., 977-S1 (1956): Infiltration of TiC Skeletons
446. W.H. DuBois, Machine Design 28 (24), 139-41 (1956): lVIetal-CeramicFriction Materials
447. E.A. Brandes, Product Eng. 27 (9), 186-90 (1956): High TemperaturelVIaterials (A Review)
449. L.D.
450. A.M.
451. W.B.
452. J "W.
453. R.W.
454. 1'J.K.
455. J.F.
456. E.J.
- 33 -
448. British Thomson-Houston Co., Brit. Patent 747,483 (1956): BondedBoride Material
Bro~nlee, R. Edwards &~d T. Raine, Iran and Steel Inst., Spec.Report No.58, 302-4 (1956): Effect of Carbon Content on theProperties of Tungsten-Carbide-Coba1t Hard Alloys
Cherepanov, Fiz.-Khim.Osnovy Keramiki (1956), 349-58: Cermetsand their Properties
Crandall, Am.Ceram.Soc.Bull. ]2, 66-70 (1956): An OxidationStudy of Cobalt-Alumina Mixtures
Culp and P. Koskos, Sylvania Tochnologist~, 27 (1956): ACeramic-Metal Voltage Reference Tube
Dayton and C.R. Tipton, BMI-1l44 (1956): Kinetics of -bheZr-U0 2-Reaction
Disen and G.F. Hüttig, Planseeber. i (1), 10-4 (1956): On theAction of Acid Solvents on Certain Hard Silicides and HighMelting Metals
Eckel, C.A. Bruch, A. Levy, A.E. Willis and W.E. Seymor, TID75]5 (1956), Pt.2, 170-221: Radiation Effects on ReactorMaterials
Egan, Iran Age 17l (18), 91-4 (1970): Throwaway CeramiesTurns New Profits from Old Lathes
457. S.H. Fitch and N.E. Huston (eds.), NAA-SR-1634 (1956): ReactorSafety Quarterly Progress Report, Nov. 1955 - Jan. 1956
458. T. Fukatsu, Funtai oyobi Funmatsuyakin i, 74-87 (1956): UnsolvedProblems in the Study of Refractory Hard Metals
459. R. Girschig, Metaux (Corrosion - Industrie) 31 (366), 80-93 (1956):La Fabrication et Utilisation des Oaz-bur-es met a.Ll.Lqu.e s etAlliages Durs
460. F.W. Glaser and N. Grossman, Powd.Met.Bull. 7, 90-3 (1956): Qermetsand the Problem of Impact Strength
461. C.G. Goetzel and J.B. Adamec, Metal Progr. 70 (6), 101 (1956): Infiltration of Cermets for Improved Toughness
462. J.W. Graham and J.C. Redmond, in: I.E. Campbell (ed.), High-Temperature Technology (Wiley, New York, 1956), 208-32: Cermets
463. N.~. Grant, Metal Progr. 69 (6), 76 (1956): Design of Hieh-Temperature Alloys: Cermets and Oxide Dispersions
464. J. Gurland and J.T. Norton, Plansee Proc. 2nd Seminar (Pergamon,London, 1956), 99-110: The Role of the Binder Phase inCemented Carbides
465. G.T. Harris and H.C. Chi1d, Iron and Steel Inst., Spec.Report No.58,325-30 (1956): Rupture Strength of Some Metal-Bonded Refractory Oxides
466. G.T. Harris, H.C. Child and J.F. Howard, Iron and Steel Inst., Spec.Report No.58, 282-91 (1956): The Creep Strength of TitaniumCarbide Base Materials
467. C.A. Hauck, E.W. Deadwyler and T.S. Shevlin, PB-121 253; PB-121 461;WADC-TR-54-173,Pt.2 (1956): A1umina-3ase Cermets
468. H.H. Hausner and D.P. Ferriss, Materials and Methods 43, 132 (1956):Metal Powder Slip Castings
- 34 -
469. W.L. Havekotte, Metal Progr. ~ (4), 56-61 (1956): High Temperature Parts Based on Titanium Carbide
470. W.L. Havekotte, Plansee Proc. 2nd Seminar (Pergamon, London, 1956),111-29: Titanium Carbide Base Cermets
471. C.W. Henson, Materials and Methods 44,96-8 (1956): Boron CarbideLooks Promising for Nuclear Uses
472. J. Hiavac, Sklar a keramik~, 87-90 (1956): Keramische Stoffe inKernreaktoren
479. J. Hinnüber and O. RÜdiger, Iron an d Steel Inst., Spec.Report No.58,305-10 (1956): Chromium Carbide in Hard Metal Alloys
474. L.D. Hower, Proc.12th Ann.Meeting, Metal Powder Ass., 108-19 (1956):Ceramic Metal Friction Materials
475. M.J. Humenik and N.M. Parikh, J.Am.Ceram.Soc. 22,60-3 (1956):Cermets. I. Fundamental Concepts Related to Micrüstructureand Physical Properties of Cermet Systems
476. T.r. Jones, TID-7567 (1956), Pt.l, 32-4·5: Metallography of CertainHot-Pressed Carbides Possessing High Melting Points
477. J.R. Johnson, J.Metals 8 (5660), (May 1956): Ceramic Fuel Mater-ials for Nuclear Reactors
478. J.R. Johnson, R.L. Hamner, A.J. Taylor and J.M. Warde, Nucl.Sci.Techn.1. (2), 111-30 (1956): High-Temperature Cel'amic PowerReactors Using SiC-Si Fuel Elements
479. H. Kalsing, Sprechsaal Keram. 89, 414-6 (1956): Keramische Stoffefür Raketenantriebe
480. D.L. Keller, Progr.Nuclear Energy V (1956): Fuel Materials
481. M.J. Kerper et al., pape r s Am.Ceram.Soc., New York 1956: Evaluationof the TensileTest for Cermets
482. W.D. Kingery, Bull.A~eram.Soc. 35, 108-12 (1956): Role of the Surface Energies and Wetting in Metal-Ceramic Sealing
483. R. Kiyoura and T. Sata, J.Ceram.Ass.Japan 64, 183-92 (1956): Preliminary Study of Oxide Cermets of Alumina, Zirconia andMagnesia Series Containing Nickel and Iron
484. G.S. Krermer, Poroshk. Met. (Yaroslavl, 1956), 115-26: Strength ofSintered Tungsten Carbide-Cobalt Hard Metals
485. H.P. Leeper, TID-12 268 (1956): Compatibility of Materials in Liquid Metal and Composition
486. M.H. Leiphold, W.R. Foster and T.S. Shevlin, AC-121 940 (1956):Final Summary Report for the Period March 18, 1953 toNovember 30, 1955
487. A.V. Levy, Trans.Soc.Automotive Eng • .§.i , 366-78 (1956): App1icationof High-Temperature Materials for Aircraft Power Plants inthe Temperature Range 1200-2400 °F
488. D.R. Livey and P. Murray, in: F.Benesovsky, Warmfeste und korrosionsbeständige Sinterwerkstoffe (Pergamon, London, 1956), 375-404:The Wetting Properties of Solid Oxides and Carbides by LiquidMetals
489. M. Lorant, Sheet Metal Ind. ]2, 247-9 (1956): Cermets - Details ofSome Improved Applications Methods
- 3S -
490. J.R. Low jr., J.Metals 8, 982-4 (1956); Trans. AlME 206, 982-4(1956): Brittle Fracture of Cemented Titanium Carbide
491. G.W. Lucas, U.S. Patent 2,731,711 (1956): Sintered Tungsten CarbideCompositions
492. F.A. Lytton and J.A. Cashmore, U.S. Patent 2,733,161 (1956): Cermetsfrom Alumina-Impregnated with Silver
493. E. Mack, Ohio State Univ., AD-I03 599 (1956): Research on Phase Relationship in Ternary Metal-Metal Oxygen Syst~ms
494. G.A. Meerson and G.V. Samsonov, Izvest.Akad.Nauk SSSR, OtdelenteTekh.Nauk ±, 121-5 (1956): Cermet Hard Alloys with UnequalDistribution of the Carbide Component, for the Machining ofAbrasive Materials
495. R. Meyer, Metaux (Corrosion-Industrie) 31 (869), 219-32 (1956): NewDevelopments of Powder Metallurgy in the Field of High Temperature Materials
496. E. Meyer-Hartwig, Ber.Dtsch.keram.Ges. 33, 85-91 (1956): Das Reaktionssintern
497. W.E. Moody and W.W. KriegeI, paper: Am.Ceram.Soc., New York 1956:1 33Determination of the Activation Energy for Diffusion of Xe
through MgO-Ni Cermet Compacts
498. V.G. Morris, Machine Tool Blue Book (April 1956), 115-7: DevelopmentWork on Ceramic Toolholder Design Still in Progress
499. J.T. Norton, Ceram. Age 67 (4), 32-8 (1956): Development of Cermetsas Structural Materials
500. J.T. Norton, Mach.Design 28, 143-6, 148 (1956): Selecting Cermetsfor High Temperature Applications
501. J.T. Norton, Mech.Eng. 78, 319-22 (1956): Cermets for High Temperature Service
502. Oak Ridge Nat.Lab., TID-7515 (1956), Pt.2, 5-100: Brief Summary ofResearch on Radiation Effects in Solids
503. E.M. Onitsch-Modl, in: F.Benesovsky, Warmfeste und korrosionsbeständige Sinterwerkstoffe, 2. Plansee-Seminar, Reutte/Tirol1956 (Springer, Wien, 1956), 427-41: Sinterverhalten, Mikrogefüge und Eigenschaften von Cr-A120 3-Cermets
504. A.P. Palkin and V.T. Redchenko, J.lnorg.Chem.(USSR) 1 (1), 139-49(1956): Reactions between Salts and Metals in the Molten State
505. T.W. Penrice and D.H. Shote, Iron and Steel lnst. London, Spec.Rep.No.58, 277-81 (1956): Testing of Ceramal Materials with Particular Reference to a Simple Titanium-Carbide Cobalt Material
506. A.C. Pezzi and H.P. Kling, WADC-TR-56-329 (1956): lmprovement of theImpact Resistance of Cermets
507. K. Pfaffinger, H. BlumenthaI and F.W. Glaser, paper: ASTM Symp. onMetallic Meterials for Service Temperatures Above 1600 °F(1956), 90-102: Titanium Carbide-Base Cermets for High Temperature Service
508. B. Post et al., NP-6041 (1956): Cemented Borides
509. T. Raine, U.S. Patent 2,736,086 (1956): Corrosion Resitant CementedTitanium Carbide Material
- 36 -
510. J.C. Redmond and A.M. Burghardt, WADC-TR-56-8 (1956): PreliminaryInvestigation of Ultrasonic Examination of Cermet TurbineBuckets
511. J.C. Redmon~ R.J. Reintgen, J.R. Fenton and M.E. Simon, PB-131 026(1956~: Evaluation of the Engineering Properties of TiC-BaseCermets
512. L.T. Richardson and M.R. Swinehart, U.S. Patent 2,760,256; 2,760,257(1956): Silver-Base Electrical Contacts
513. V.A. Schalnov, Stanki i Instrument 27 (1), 26-8 (1956): Grinding andPolishing of CeTamic Alloys
514. M.A. Schwartz, in: F.Benesovsky, Warmfeste und korrosionsbeständigeSinterwerkstoffe, 2.Plansee-Seminar, Reutte/Tirol 1955 (Springer, Wien, 1956), 457-64: Powder Ceramics - Powder Metallurgy
515. P. Schwarzkopf, U.S. Patent 2,768,611 (1956): Gas Turbine Rotors andtheir Production
516. P. Schwarzkopf, Proc.Int.Symp. on Reactivity of Solids, Madrid 1956:Turbine Buckets by Powder Metallurgy: Cermets versus coatedMolybdenum
517. T.S. Shevlin, H.W. Newkirk, E.G. Stevens and H.M. Greenhouse, WADCTR-54-33 (1956), Pt.2: Ceramics and Cermet Materials. Preliminary Microscopic Studies of Cermets at High Temperatures
518. H.J. Siekmann, Machinery &2, (1956): Cemented Oxides or Carbides
519. L.P. Skolnick and C.G. Goetzel, ASTM Symp. on Metallic Materials forService at Temperatures above 1600 °F, Spec.Tech.Pub.174(1956): Titanium Carbide Products Produced by the InfiltrationTechnique
520. H.G. Sowman, C.E. Lacy and G.L. Ploetz, KAPL-1557 (1956): A Methodof Fabricating Stainless Steel-U0 2 Dispersion Fuel Elements
521. E.J. Soxman and J.R. Tinklepaugh and M.T. Curran, J.Am.Ceram.Soc.]2, 261-5 (1956): An Impact Test for Use with Cermets
522. J.A. Stavrolakis, H.N. Barr and H.H. Rice, Am.Ceram.S~c.Bull. ]2,47-52 (1956): An Investigation of Boride Cermets
523. R. Steinitz, Powder Met.Bull. 1 (3-6), 155-8 (1956): Materials forHigh Temperatures
524. S. Tacvorian, U.S. Patent 2,767,463 (1956): Metalloceramic Composition
525. E.J. Tangerman, Amer.Machinist 100, 154-9 (March 1956): What weshould Know about Ceramic Tools
526. E.J. Tangerman, Metalworking Production 100 (13), 516-22 (1956):What Do We Know about Ceramic Tools?
527. F.A. Trumbore, C.D-. Thurmond and M. Kowalchik, J.Chem.Phys. 24, 1112(1956): Germanium-Oxygen System
528. P.S. Turner, J.Res. NBS 21, (1956):
529. H.F.G. Uelts, U.S. Patent 2,770,029 (1956): Alloys for ElectricalResistors and Parts of Jet Engines and Rockets
530. J.M. Warde, Materials and Methods 44 (2), 121 (1956): Materials forNuclear Power Reactors --
531. C.E. Weber and H.H. Hirsch, Progr.Nu~l.EnergyV, Metallurgy and Fuels(McGraw~Hill, New York, 1956), 523- : Dispersion Type Fuel
- 37 -
532 .. A.E.S. White, Brit. Patent 750,111 (1956): Metal-Ceramic Bodies
533. A.E.S. White, F.K. Earp, T.H. Blakeley and J. Walker, Iran and SteelInst. London, Spec.Rep. No.58, 311-4 (1956): Metal-CeramicBodies
534. TI.R. Wilder, in: I.E. Campbell (ed.), High Temperature Technology(Wiley, New York, 1956), 235-50: Sintering of Metallic andNonmetallic Refractory Materials
535. V.I. Zikarev, Stanki i Instrument 27 (2), 19-21 (1956): Gebrauch vonSchneidwerkzeugen mit keramischen Plättchen
536. W.F. Zimmermann and H.A. Larson, paper: Am.Ceram.Soc., New York 1956:Performance of Some Cermet Engine Components in a TurbojetEngine
1957
537. TI.H. Ahmann et al., KAPL-1877 (1957): A UO~-Bismuth System as aReactor Fuel .:
538. Anon., Ceramics ~ (102), 29 (1957): Cermets as High-TemperatureProtective Coating
539. Anon., Genie civil 134, 379-81 (1957): Fortschritte auf dem Gebieteder Cermets und ihre industrielle Anwendung
540. Anon., Mater.TIesign Eng. 46 (1), 143-4 (1957): Cermet Pin ControlsCopper Flow in Continuous Casting Machine
541. Anon., Metallurgia 53, 239-40 (1957): New Heating-Element MaterialSuitable for~emperatures up to 1600 0
542. N.N. Ault, J.Am.Ceram.Soc. 40, 69-74 (1957): Characteristics of Refractory Oxide Coatings Produced by Flame Spraying
543. o. Bätz, Geologie 6, 452 (1957): Ceramic Materials with High AluminaContent and of Pure Alumina
544. G.W. Barnes, Grits and Grinds 48, (1957): Ceramic Cutting Tools- Progress Report
545. A.P. Beard et al. , KAPL-1770 (1957): Quart. Reactor Techn.Report No.l
546. R.J. Beaver, R.C. Waugh and C.F. Leitten, ORNL-2225 (1957): Specifications for APPR-l Fuel Elements
547. C.A. Bertella, Met.ital. 49 (8), 637-46 (1957): Cermets
548. W. Biernawski, Strojirenska vyroba 2, (1957): Gesinterte Metalloxyde - Neue Zerspanungswerkstoffe
549. T.H. Blakeley, Metal Powder Reports 11 (5), 95 (1957): Metal-Ceramics
550. T.H. Blakeley and R.F, TIarling, Engineer 203, 25-52 (1957): The TIevelopment of Refractory Nozzle Blades for Use in High Temperature Gas Turbines
551. R. Bollack and M. Rey, French Patent 1,14.9,539 (1957): AluminiumNitride Articles
552. R. Changs, NAA-SR-M-1887 (1957): Survey of Mechanical Properties TIataof Ceramic Materials
553. A.M Cherepanov, Referat.Zhur.Met. No.14 437 (1957): Cermets and theirProperties
- 38 -
554. L.A. Conant, Brit. Patent 787,273 (1957): Chromium Containing Cermets
555. L.A. Conant, U.S. Patent 2,783,530 (1957): Metal Ceramic Product
556. J.E. Cunnlngham, R.S. Beaver and W.C. Thurber, TlD-7546 (1957), 269:Fuel Dispersions in Aluminum Base Fuel Elements For ResearchReactors
557. E.H. Despard, Can.Machinery 68, 134-6, 246-8 (1957): Why CementedCarbides Behave as They Do
558. G.C. Deutsch, paper: AlME High-Temperature Materials Conference,Cleveland 1957: The Use of Cermets for Gas Turbine Blades
559. V. Dufek, Strojirenstvi 1 (11), 857-61 (1957): Determining the Quality of Sintered Hard Alloys
560. P. Duwez, paper: 16th congress on pure and applied chemistry, Paris1957: Preparation and Properties of Highly Refractory Compounds
561. F. Eisenkolb, Technik 12, 824-9 (1957): Uber die Prüfung von warmfesten metallkeramischen Werkstoffen
562. F. Eisenkolb und W. Richter, Silikattechn. §, 140-7 (1957): Untersuchungen an Sinterwerkstoffen aus metallischen und nichtmetallischen Bestandteilen
563. F. Eisenkolb und W. Schatt, Neue HUtte 2, (1957): Herstellung undPrüfung von SinterkBrpern aus Aiuminiumoxyd und Chrom
564. J.L. Ellis, Tool Eng. 38 (4), 103-5 (1957): A Machinable, Heat Treatable, and Weldable Cemented Carbide for Tooling Purposes
565. V.N. Eremenko and Yu.V. Naidich, Ukrain Khim.Zhur. 12, 573-8 (1957):Electrical Conductivity of Oxides and Their Wetting by LiquidMetals
566. H.M. Feder, N.R. Che11ew and C.L. Rosen, ANL-5765 (19B7): Interactionof Uranium and its Alloys with Ceramic Oxides
567. R.P. Felgar and J.D. Lubahn, ASTM Proc. 57, 770-88; 789-90 (1957):Mechanical Behavior of Cemented Carbides
568. H.C. Friedemann ~enn.Texas Corp., Nucl.En~.Div., New York, 1957):Development of Cermets 1950 - 1956 ,a Bibliography)
569. B.R.T. Frost, Atomics and Nuclear Energy §, 387-90 (1957): TheWetting of Solids by Liquid Metals
570. General Electric. Co., Brit. Patent 768,329; 768,532 (1957): ChromiumBase Refractory Compositions; Sintered Hard Compositions
571. R.M. Gill, Machinery 91, 1341-6 (1957): Ceramic-Oxide Cutting Tools
572. F.W. Glaser, U.S. Patent 2,807,075; 2,807,076 (1957): Chromium BorideCermets with Ch~omium or Silicon; Chromium Boride Cermet withChromium and Molybdenum
~73. F.W. Glaser, Planseeber. Pulvermet. 2, 460-83 (1957): Fortschritts-bericht über Cermets -
574. E.W. Goliber, French Patent 1,133,464 (1957): Sintered Body ofChromium and Titania
575. R.D. Grinthal, Powder Met.Bull. § (1-2), 18-22 (1957): Effect of SomeMetal Additions on Molybdenum Disilicide
576. B.A. Grjaznov, Maschinostroj Priborostroj (1957), Nr.6, 43-5: Maschinezur Bestimmung der Temperatur-Wechselfestigkeit von Sinterwerkstoffen
- 39 -
577. J. Gurland, J.Metals 2 (4), 512-3 (1957); Trans. AlME 209, 512-3(1957): Comparison of the Strength of Sintered Carbides
578. J. Gurland, Metal Progr. 72, 178- (1957): Temperature stresses inthe Two-Phase Alloy WC-Co
579. H.H. Hausner, paper: Albuquerque 1957: Fundamentals of Metal-CeramicCombinations (Cermets)
580. E. Heymmel, paper: Int.Pulvermet. Tagung, Eisenach 1957: Zerspanungstechnische Untersuchungen an keramischen Schneidwerkstoffen
581. J. Hinnüber, German Patent 1,019,470 (1957): Tungsten-Carbide-CobaltAlloys
582. A. Hivert and S. Tacvorian, Rev.met. 54 (1), 57-64 (1957); Met.ital.49 (10), 745 (1957): A New High-Temperature Material: Chromal
583. G. Imich, U.S. Patent 2,793,949 (1957): Composite Products ContainingMetallic and Nonmetallic Materials
584. H. Isken, Neue Hütte g (9), 580 (1957): Influences of Test Conditionsand Grain Size on Toughness and Hardness Values and on FreeSurface Wear of Hard-Metal Specimens
585. 1.1. Iskol'dski~ and L.P. Bogorodskaya, Zhur.Priklad.Khim. 30 (2),177-85 (1957): Regarding the Possibility of Producing Metallorefractory Hard Alloys Based on Borides of Chromium, Titaniumand Tungsten
586. J.R. Kattus, Jet Propulsion (June 1957), 644-9: Structural Materialsfor Missile Application at Very High Temperatures
587. N.F. Kazakov and M.N.Andrianova, Stanki i Instr. 28 (5), 24-5 (1957):Determination of Cutting Performance of Tungsten Carbide withCobalt and.z'or- Nickel as Binders
588. D.L. Keller, BMI-1208 (1957): Evaluation of Reactor Core Materialsfor a Gas-Cooled Reactor Experiment
589. W.D. Kingery, paper: 16.Kongr.f.reine u. angew.Chemie, Paris 1957:Surface Tension and its Temperature Dependence for LiquidMetals and Metal-Oxides at Elevated Temperatures
590. W.D. Kingery, J .Am.Ceram.Soc. 40, 351-2 (1957): Note on Thermal Expansion and Microstresses in Two-Phase Composites
591. C. Kopelman, TID-7546 (1957), 231: Recent Developments in DispersionType Fuel Elements
592. B.S. Korshunov, Vestnik Mashinostroeniya 37 (9), 54-6 (1957): Electrochemico-Mechanical Machining of Hard Metals
593. W.J. Kramers< D.R. Whitt~er and W.B. Rotsey, Brit. Patent 784,321(1957): Cermets from Thoria and Thorium
594. G.S. Kreimer, A.J. Baranov and O.S. Safonova, Fiz.Metal. i Metalloved.2 (2), 361-4 (1957): Static and Cyclic Strength of SinteredTungsten Carbide- Cobalt Hard Metals
595. M.C. Lambert and D.C. Bixby, HW-19 300 (1957): X-Ray Photometrie Determination of Uranium in Metal Oxides
596. H.W. Lavendel and C.G. Goetzel, WADC-TR-57-135 (1957); AD-131 031(1957): A Study of Graded Cermet Uomponents for High Temperature Turbine Applications
597. W.G. Lawrence,1957),
in: The Defect Solid State (Interscience, New York,: Ceramic Materials for High Temperatures
- 40 -
598. J.W. L~ndenthal, J.G. Stradley and T.S. Shevlin, WADC-TR-54-173;PB-131 342 (1957): Alumina-Base Cermets
599. D.T. Livey, Trans.Brit.Ceram.Soc. 2§ (9), 482-98 (1957): Ceramicsand the Development of Nuclear Power
600. J. Lomas, Machinery Lloyd 29, 55-7 (1957): The New Refractories
601. M.W. Ivlallett{ J.W. Droege, A.F. Gerds and A.W. Lemmon, BMI-1210(1957): The Zr-U0 2 Reaction
602. H. Matsumoto, S. Yamauchi and S. Nishiyama, Nagoya Kogyo GijutsuShikensho Hokoku 6, 110 (1957): Alumina-Base Cermets. I. Adherence Between Alumina and Chromium
603. N.C. Moore, U.S. Patent 2,785,974 (1957): Process for ProducingMetal Ceramic Compositions
604. W.G. Morgan and G.C. Deutsch, NACA-TN-4030 (1957): ExperimentalInvestigation of Cermet Turbine Blades in an Axial-FlowTiirbojet Engine
605. P. Murray, Refractories J. 33, 2-6 (1957): Some Aspects of Ceramicsin Atomlc Energy
606. S. Palmquist, Jernkontorets Ann. 141, 30C-7 (1957): Tensi1e StrengthDetermination in Brittle Materials, Particu1arly CementedCarbides
607. S.J. Papr-ockd , D-L. Keller and G.W. Cunnf.ngham , BMI-1l84 (1957):Fabrication of Dispersed Uranium Fuel Elements Using PowderMetallugry Techniques
608. N.M. Parikh, J.Am.Ceram.Soc. 40, 335-9 (1957): Cermets. Irr. Modesof Fracture and Slip in Cemented Carbides
609. N.M. Parikh and M. Humenik jr., J.Am.Ceram.Soc. 40, 315-20 (1957):Cermets. 11. Wettability and Microstructure Studies inLiquid-Phase Sintering
610. A.C. Pezzi and H.:P. Kling, PB-131 093 (1957): Improvement of theImpact Resistance of Cermets
611. K. Pfaffinger et al., Produat Eng. 28, B6-8 (Oct.1957): TitaniumCarbide Cermets for High-Temperature Applications
612. R. Pollack and M. Rey, Brit. Paterrt 785,814 (1957): Production andArticles of Aluminium Nitride
613. H.B. Probst and H.T. McHenry, NACA-TN-3894 (1957): Study of theImpact Behavior of High Temperature Materials
614. T. Raine, Metal Powder Reports 11 (5), 91 (1957): Sintered Carbides
615. W. Richter, Neue Hütte 2 (8), 506 (1957); Silikattechn. 8 (9), 387-9(1957): Keramikmischungen für den Hochtemperaturbereich
616. G. Ritzau, in: Jahrbuch der Oberflächentechnik1957), : Stand und Problematik der Cermet Sinterwerkstoffe
617. L. Robins and E.M. Grala, NACA-TN-3927 (1957): Preliminary Investigation of the Effect of Surface Treatment on the Strength of aTitanium Carbide - 30 %Nickel-Base Cermet
618. M.T. Robinson, CF-57-6-42 (1957): The Reaction of Zirconium with U02
619. O.A. Sandven, AGARD-Rep. No.99 (1957): Cermets as Potential Materialsfor High-Temperature Service
(1957): Performance of Ceramic
- 41 -
620. W. Schatt, Silikattechn. Q, 268-73 (1957): Gefügeuntersuchungen anSinterkörpern aus Tonerde und Chrom
621. A.O. Schmidt et al., Machinery 90,Tools
622. A.W. Searcy, J.Am.Ceram.Soc. 40, 431 (1957): Predicting the Thermodynamic Stability and Oxidation Resistance of Silicide Cermets
623. M.C. Shaw, A.D. Hoch und T.R. Reinhart, Tool Eng. 39, 109-14 (1957):Amerikanische oxydkeramische Schneidstoffsorten
624. T.S. Shevlin, Ceram. Age 70 (5), 22 (1957): Cermets, Their Natureand Uses
625. A. Siede and A~G. Metcalfe, PB-131 820 (1957): Cermet Preparationby Reactions in the Iron-Aluminum-Oxygen System
626. F. Skaupy, Neue Hütte ~ (8), 507 (1957): Neuere Entwicklung vonHartstoffen hoher Temperatur- und Korrosionsbeständigkeit
627. R. Steinitz, in: Aviation Age, R&D Handbook ( ,1957),: Oe~Ls and ~etal1ic Refractories
620. W.,T. Strang, Engineer 204 (5304), 417 (1957): Use of NonmetallicMaterials at H'i.gh Temperatures
629. Syracuse Uni.v., New York, NP-6402 (1957): Materials Evaluati.on inRelation to Component Eehavior
630. S. Tacvorian, Lnd i c e r-arn , (1957), No.486, 139-49: Evolution of Re-·fractory Materials: Superrefractories and Cermets
631. R. Takagi, K. Tamura andY. ':':am.ura, Kikai Shikensho Shoho 11 (4),140-4 (1957): A S~udy of erB Cermet
632. J.A. Ternisien, Techn.Mod. ~, 94-8 (1957): Cermets als Kataysatoren
633. V.Ya. Tretyakov, Neue Hütte? (S), 505 (1957); Technik 12 (11), 733-5(1957): Properties and lI'lanufacture of Metallo·-Ceramic WC-CoAlloys
634. G. Verrtrur-e.lLo and V. Ooen, l'iletallurgia Ital. 49, 621-5 (1957): Herstellung eines Cr-Al')03 Cermets nach der aluminothermi.schenMethode ~
635. R.C. Wangh and R.J. Beaver,CF-57-9-60 (1957)~ Recent Development inthe Powder IJIE:tallurgy Application o r Uranium Oxides to Aluminum Hesearch Reactor Fuel Elements
636. B.C. Weber, W.M. Thomson, E.O. Bielstein and M.A. Schwartz, J.Am.Ceram.Soc. 40, 363-73 (1957): Ceramic Crucible for Melti.ngTitanium -
637. J. Weil1, Usine Ncuv , , Sondernummer 1957, 1<'35, 187-8: Ke r-amd s cheS chne Ldwer-k seuge
638. R.';. Westex'holm, Gr:Lts and Grj.nds 48 (10), 3-7 (1957): Norton RokideCoatings Helping Industry toBreak Through l!~'hermal Barrier"
639. J. Williams, TID-7546 (1957), 554: Dispersion Type }i'ue1 Elements forResearch Reactors Based on Fissile Ceramies
640. L.S. Williams, D.T. Livey, E. Barnes and P. Murray, <T.Nucl.Energy..±,164-78 (1957): Investigation of Three Cermets on UraniumOxide Baeä s
64Oa-,G. Youssov, U.S. Patent 2,789,341 (1957): Ceramic Re:fractory Products (Cermets)
1958
641- Anori, ,
642. Anon. ,
643. Anon. ,
644. Anon. ,
645. Anon. ,
646. Anon. ,
647. Anon. ,
660. H.J.
659. T.S.
- 42 -
ASTM 13 311-58 (1958): Density 01' Cemented Carbides
Ind. Heating~, 791-6 (1958): Cermets: Production andTesting
Machinery 64, 140 (June 1958): Sintered Metal Ceramies forHigh-Temperature Applications
Metal Ind. 93, 252 (1958): Slip Casting Cermets
Metal Progr. 74 (4), 96 (1958): Preview 01' Space Metals
Metal Progr. 73 (5), 97 (1958): 13etter Ways to FabricateHigh-Temperature Materials
Metallurgia 57, 247-50 (1958): Sintered Metaland CerametallicFriction Materials
648. Anon., Mater. Design Eng. 48, 231-3 (Oct.1958): Refractory Ceramiesand Cermets
649. Anon., NBS - Techn.News 13ull. (Oct.1958), 196-7: Determining Mechanical Properties 01' 13rittle Cermets
650. P. Asanti, Teknillisen Kemian Aikakanilekti]2, 9-10 (1958): CeramicMetal Materials
651. K. 13ackhaus, Elektrowärme li, 189-93 (1958): Uber einige Fortschritteauf dem Gebiet der Werkstoffe für die Elektrowärmetechnik
652. M. 13asche, R.G. 130urdeau and J. Wulff, P13-133 199 (1958); U S. Govt.Res.Repts 30 (4), 262 (1958): Joining 01' Titanium CarbideNickel Cermets
653. S.J. 13asham, J.H. Stang and E.M. Simons, Nucl.Eng.Sci.Conf., Chicago1958; Preprint 23; 24: Corrosion Screening 01' Component Materials for NaK Exchange Systems
654. Y. 13askin and T.A. Greening, WADC-TR-58-152 (1958), Suppl.l: Study01' the Mechanism 01' Failure 01' Rocket Materials
655. A.P. Beard and R.N. Honeyman, paper: Metallurgical Soc., Cleveland1958: Preparation 01' Zirkonium-13ase Dispersion Fuels
656. C.W. 13esserer, TG-370-14 (1958): Ramjet Technology - Materlals forRamjet Engines and Components
657. T.K. 13ierlein, H.W. Newkirk and 13. Mastel, J.Am.Ceram.Soc. 41, 196200 (1958): Etching 01' Refractories and Cermets by Ion Bombardment
658. I. 13inder and R. Steinitz, WADC-TR-58-432 (1958): An Investigation01' the Mechanical Properties 01' Cermets as Related to theMicrostructure
13ragdon< P13-134 946 (1958); U.S. Govt.Res.Repts 30 (6), 613(1958): Evaluation 01' Cermets for Jet E-.agine Turbine Blade
13rown, USo Patent 2,837,428 (1958): Method 01' Sintering Chromium-Alumina Metal Ceramics
661. J. 13uTkett, Metal1urgia 58, 32-6, 64-6 (1958): Metallurgie in derKerntechnik
662. J .D. 13urney, WADC-TR-15-0971 (1958): AStudy 01' the Possibili ty 01'Reinforcing High-Temperature Alloys by Addition or Refractory Powders
- 43 -
663. LA. Bystrova and V.F. Funke, Izvest.Akad.Nauk.SSSR.§. (1), 37-41(1958): Some Data on the Properties of Cemented Carbides withUneven Distribution of the Cementing Phase
664. N.T. Cannistraro, Metal Progr. 74 (5),111-3 (1958): Where Do WeStand in Ceramic CoatingS-
665. A.J. Carah, Iron Age 181, 102-4 (1958): What We Need in HighTemperature Materials
666. R.D. Carnahan, T.C. Johnston and C.H. Li, J.Am.Ceram.Soc. 41, 343-7(1958): The Wetting of A1203
by Aluminum
667. J. Caste1franco, Ceram.Ind. 70 (5), 84 (1958): What Can Ceramies Dain Missiles -
668. J.S.S. Cole and F.J. Hynes, Bull.Am.Ceram.Soc.37, 135-8 (1958): SomeParameters Affecting Ceramic-to-Metal Seal Strength of HighAlumina Body
669. L.A. Conant, U.S. Patent 2,843,646 (1958); Brit. Patent 788,918/9;796,489 (1958): Laminated Ceramic-Cermet Articles; ChromiumAlumina. Cermets; Metal-Ceramic Composition
670. R.M. Corelli, Aerotechnica 38, 71-87 (1958): Cermets, Ceramies andProtective Coatings for High-Temperatures Applications in JetPropellers
671. G.W. Cunningham, A.K. Foulds, D.L. Keller and W.E. Ray, Nucl.Sci.Eng •..1, 449-57 (1958): Development of Composite Control Rod
672. J.E. Cunningham and R.J. Beaver, paper: Metallurgical Soc., Cleveland 1958: Stainless Steel-Uranium Dioxide Fue1 Components forArmy Package Power Reactor
673. J.E. Cunningham, Proc.2nd Int.Conf. Peaceful Uses Atomic Energy,Geneva 1958, Vo1.6, 521-30: APPR Fuel Technology
674. M.T. Curran, R.P. Riegert, R.K. Francis, R.S. Truesdale and ,LR.Tinklepaugh, PB-131 188 (1958); U.S. Govt.Res.Repts 29 (5), 274
(1958): Ceramic Reinforced Alloys and Plated Cerroets
675. R.W. Dayton and C.R. Tipton, BMI-1294, 1301, 1304, 1307 (1958):Progress Relating to Civilian Application
676. G.G. Deutsch< A.J. Meyer and G.M. Ault, NATO-Adv.Group Rep.No.185(1958): A Review or the Development of Cermets
677. J. Dubusson, A.Houyvet, E. LeBoulbin, R. T.ucas and C. Moranville,Proc.2nd UN Int.Conf. 6, 551-60 (1958): The Preparation ofUranium Ca.rbi.de Cermets arid Stoichiometric Monocarbide bySintering under Stress
678. F'. Eisenkolb, Forschungen u , Fortschritte 32, 257-63 (1958): Uberpulvermetallurgische Verbundstoffe aüs metallischen undnicht-metallischen Bestandteilen
679. A.L. Eiss, SCNC-257 (1958): Reactivity of Certain Uranium Dioxideswith Aluminum
680. J.L. Ellis et al., U.S. Patent 2,843,501 (1958): Method for thePrecision Production of Infiltrated Articles
681. V.N. Eremenko und J.V. Najditsch, Akad.Nauk.Ukrain RSR, JPRS-5006(1958): Oberflächenbenetzung hochschmelzender Stoffe mitseltenen Erden
682. W.A. Recher and G. Lorenz, Arch.EisenhUttenwes. 29, 293-300 (1958):Untersuchungen zur Entwicklung eines oxydischen Thermoelements
700. H.H.
70l. H.H.
702. H.H.
703. F.W.
- 44 -
683. R.K. Francis, R. Brown, P.P. McNamara and J.R. Tinklepaugh, PB151 664 (1958): Metal-Ceramic Laminates
684. M. Frangon and Y. Gandon, Compt.Rend. 246, 922 (1958): Untersuchungder Kontaktwinkel flüssiger Oberflächen mit festen Körperndurch Interferenzen mit polarisiertem Licht
685. T.F. Frangos, Ceramies ..2" 22-6 (1958): Alumina-Type Cermets
686. T.F. Frangos, Mater. Design Eng. 47 (2), 112-5 (1958): New AluminaType Cermets
687. R.S. DeFries and E.E. Re~nolds, PB-132 831 (1958); U.S. Govt.Res.Repts 30 (2), 77 ~1958): Evaluation of Cast Welding of Cermets to-Austenitic Alloys
688. T. Fukatsa, Funtai oyobi Funmatsuyakin 2, 41-5; 107-14 (1958):Cermet Binders. Pt.l/2
689. W.F. Gibson, Ceramies 9 (117), 8-16 (1958): Ceramic Sealing Appliedto Engineering Problems
690. F.W. Glaser, in: Ch.L.Mantel (ed.), Engineering Materials Handbook(McGraw-Hil1, New York, 1958), Sect.22, 27-33: Cermets
691. E. Glenny and T.A. Taylor, Powder Metallurgy (1958), No.l/2, 189226: The High-Temperature Properties of Ceramies and Cermets
692. C.G. Goetzel, J.Metals 10, 180-1 (1958): Powder Metallurgy in theUSSR
693. E.W. Goliber, U.S. Patent 2,841,862 (1958): Refractory Compositionsof Titanium Oxide and Chromium
694. J.W. Graham and W.F. Zimmermann, Metal Progr. 73 (4), 108-11 (1958):Cermets in Jet Engines
695. J.W. Graham arid W.F. ZilDlIlerman.n, Metal Progr. 73 (3), 89-91 (1958):What's Happened to Cermets
696. J. Gurland, Trans.Am.Soc.Met. 50, 1063-71 (1958): Temperature Stressesin Two-Phase Alloy WC-CO-
697. J. Gurland, Office of Naval Res., NOnr-562 (19), NR-039-028, Tech.Rpt No.l (1958): Metallographie Study of the Deformation ofa Particle-Strengthened WC-Co Alloy
698. C.B. Gwyn jr., U.S. Patent 2,830,898 (1958): Electrical ContactElements
699. J. Haglund and S. Amberg, Elektrowärme 16, 151-5, Disc. 156-62 (1958):Ein Widerstandsmaterial für Temperaturen bis 1600 oe
Hausner, Proc. Am.Soc.Met., Cleveland 1958, 315-39: Fundamentals of Metal-Ceramic Combinations (Cermets)
Hausner, NYO-8530 (1958): Slip Casting of Cermets
Hausner, Metal Progr. 73 (1), 105-8 (1958): Report on PowderMetallurgy in USSR --
Heck, D.P. Ferriss and G.J. Comstock, PB-132 324 (1958); U.S.Govt.Res. Rpts 30 (5), 340 (1958): Navy Project for Investigation of Hot Coined Cermet Coating~Refractoryand Resistantto Oil Ash Corrosion
704. T. Hibino, Y. Wakao and S. Yamouchi, Rep.Gov.Ind.Res.Inst.Nagoya 7,69-73 (1958): Oxides for Cermets. M. -
705. F.R.
706. A.F.
707. G.R.
708. G.R.
709. J •. B.
- 45 -
Himsworth, A.W. Elmes and L.G. Hugget, Brit. Patent790,621 (1958): Chromium-Alumina Cermets
Hofstatter, Materials Design Eng. 47 (4), 115 (1958):Protecting Metals at High Temperatures
van Houten, Welding J. 37, 558s-69s (1958): A Surveyof the Bonding of Cermets to Metale
van Houten, Materials Design Eng. 48 (7), 110-4 (1958):Ceramic-to-Metal Bond --
Huffad ine, Longla.nd and Moore, Powder Metallurgy NI'.1/2,235-52 (1958/59): The Fabrication and Propertiesof Chromium-Alumina and Molybdenum-Chromium-AluminaCermets
710. W. Jellinghaus und T. Shuin, Stahl und Eisen 78 (7), 419(1958): Cermets aus Aluminiumoxyd und~isen oderEisenlegierungen
711. J.R. Johnson, Powder Meta11urgy in Nuclear Engineering(Am.Soc.Met., Cleveland, 1958), 193-206: CeramicFuel Materials for Nuclear Reactors
712. J.W. Johnson and M.A. Breding, J.Phys.Chem. 62, 604-7 (1958):Miscibility of Metals with Salts in the Molten State.Irr. The Potassium-Potassi-Qill Halide Systems
713. W.D. Jones, lVIetals Ind. 92, 450 (1958): Metal Ceramics714. M.F. Judkins, Metals for Supersonic Airkraft and Missiles
(Am.Soc.Met. 1958), 340-52: Specific Ceramics andCermets of Promise
715. L.P. Kachalova und A.I. AV'f;ustinik, Izv.Vysch.Uch.Zav.Chim.(1958), Nr.5, 70-5: Cermets auf Basis Zr0 2-Zr
716. L.W. Kates (ed.), SCNC-261 (1958): QUbrterly 'l'echn • .2rog.Report
717. E. Kato, Nagoya Kogyo Gijutsu Shikensho Hokoku 7 (5), 64(1958): Sintering of TiC-Base Cermets : I. Aut omat I cRecording Apparatus for Expansion emd ContractionDuring Sintering
718. C. Kawashima and S. Saito, Yogyo Kyokai Shi 66 (752),174-82 (1958): Titanium Carbide Cermets Sinteredin a Hydrogen-MolybdenuIll Ji'urnace
719. C. Kawashirna, S. Saito and T. Hanazawa, Yogyo KyokaiShi 66 (753), 191-203 (1958): Titanium CarbideCobalt Cermets Sintered in a Hydrogen-MolybdenumFurnace
720. C. Kawashima, S. Saito and T. Hanazawa, Yogyo KyokaiShi 66 (753), 204-13 (1958): Titanium CarbideNickel Cermet Sintered in a Hydrogen-lVIolybdenumPurnace
721. C. Kawashima, S. Saito and M. Kato, Funtai oyobi Funrnatsuyakin5, 18-25 (1958): Pressing Metallic Powder by theHydrostatic Method. I. Studies on Pressing of TiC-CoSystem Cermet
722. D.L. Keller, Reactor Core Mat. 2 (3), 11-4 (1958):Dispersion Fuel Materials
723. M.J. Kerper, L.E. Mong, M.B. Stiefel and S.~. Holley, J.Res·Nat.Bur.Standards 61 (3), 149-69 (1958); NBSTechn.News.Bull. 42 (10), 96-7 (1958): Evaluationof Tensile, Cornpressive, Torsional, Transverse,and Impact Tests and Correlation of Results forBrittleCermets
- 46 -
724. R. Kieffer und R. Meyer, Chim.lnd. 79, 414-31, 589-99 (1958):Powder Metallur'gy - Its General IJevelopment andits Future Possibilities in the Field of Mechanica11ySound Refractories and Cermets
725. R.M. King, R.J. Brinkm~nn and W.E. Watkins, PB Rept. 134 765(1958). U.S.Govt.Research Repts. 30 (5), 341 (1958):Resistance to Continued Heating or-Powdered CoverCoats Applied to Enameling Iron and Ferritic Alloys
726. Vi.]). Kingery, Ceramic Fabrication Processes (J. Wiley,New York, 1958)
727. J. Kittl and J.H. Handwerk, ANL-5675 (1958): Prelimindr:vIrradiations of Ceramic Fuels U02' U02-zr and Th02-U02
728. J. Kittl, R.E. Machado, J.A. Mazza,J. Sabato and J. Silbert,2nd Int.Conf., Geneva 1958, 6, 531-7: Manufactureof Fue1 Elements of the Argonaut-Type
729. R. Kiyoura and T. Sata, Yogyo Kyokai Shi 66 (747), 49-59(1958): Selection of Metals for Cermet Bodies ofAlumina Series
730. F. Kölbl, Maschinenwelt, Elektrotechnik 13, 127-37 (1958)und Planseeber.Pulvermet. 6, 48-00 (1958): Kanndie Schneidkeramik das Hartmetall ersetzen?
731. J.H. Koenig, Materials ])esign ~ng. 47 (5), 131-6 (1958):Ceramies for High-Temperature Use
732. H.C. Kopituk, Nletal Progr. 73 (6)~ 79-84 (1958): Materialsfor Rocket Engines --
733. W.J. Kramers and J.R. Smith, Ln t ern v Congrv Pur-e Appl.Chem.1957. Mineral Chem. (1958): The Chemical Interactionof Refraatory Oxides with Metals at High Temperatureand the Influence of Non-Metallic Additions
734. S. Krapf, U.S.Patent 2,848,324 (1958): Metallic Agglomerates735. G.S. Kreimer, 1.1. Sidorin and E.F. Tishchenkova, Izvest.
Akad.Nauk SSSR 6 (3), 113-8 (1958): The FatigueStrength ofTungsten Carbide-Cobalt Hard lVletals
736. H. Lawendel and C.G. Goetzel, PB Rept. 131 434 (1958). U.S.Govt.Research Repts. 29 (6), 347-8 (1958): Stüdyof Graded Cermet Components for High TemperatureTurbine Applications
737. C.F. Leitten, iN.J. Kucera, CF 58-10-30 (1958): FOl'eignHeactor Fuel Sarnple Irradiation of U308-AI-IJispersions
738. J.W. Lennon, Ind.Eng.Chem. 50, 1433-7 (1958): Ceramies739. G.N. Levin, U.S.S.R.Patent 75,347 (1958): WC-Ni Hard Alloy740. L.]). Loch, Chem.Eng. 65 (13), 105-9 (19~8): Materials for
Use at Temperatures above 2500 F (1370 0 C)741. P. Loewenstein, in: Ceramic Fabrication Processes (J. Wiley,
New York, 1958), 195-8: Some Possible Applicationsof Metal-Working Processes to Cerarnics and Cermets
742. T. Matsukawa, Japan.Patent 4705/58. 7506/58 (1958):Electrical Contact Materials
743· H. Matsumoto, S. Yamanchi and G.N. Nishiyama, Nagoya Ind.Exp.Sta.Rep. 7 (1958), 543-52: Alumina-Base Cermets.IT. Effects of-Additives on the Adhesion BetweenAlumina and Iron
744· M.J.C. Matthijsen, Metaalbewerking, No.22, p.452, 1958.No.23, p.467: Sintered Ceramic Tool Materi&ls (I-TI)
745. S.I. Megeff and J.L. Zambrow, paper: Fall Meeting, Met.Soc., Cleveland, 1958: Fabrication of AluminumPlate-Type Elements Containing Uranium-])ioxide asthe Fuel
- 47 -
746. T. Mitsuhashi and K. Tamura, Nippon Xinzoku Gakkaishi 22 (8),416-20 (1958): Study of Disilicide Cermet --
747. b.T. Montgomery, T.S. Shevlin, H.M. Greenhouse and H.W.Newkish, PB Rept. 131 470 (1958): U.S. Govt.ResearchRepts. 29 (5), 274 (1958): Preliminary MicroscopicStudies-of Cermets at High Temperatures
748. X. Müller, El ektz-o technv z . 10 (B), 69-71 (1958): Vakuumdichte IVletall-Keramik-Verbindungen
749. P. Murray and J. Williams, Proc.2nd Int.Conf.,Geneva 1958,~, 538-50: Ceramic and Cermet Fuels
750. Yu.V. Nuidich and V.N. Eremenko, Voprosy Poroshkovi Met. i?rochnosti Materi~lov, Akad.Nauk SSR (1958), No 6,53-64: Wetting of Hard Surf&ces of Some Fusible Compounds with liquid Metals
7:>1. Nat .Res. Council, IVIAB-146-M: Report on Composi te StructuralLiaterials
752. L. Navias, U.S. Patent 2,855,491 (1958): Metal-CeramicL:lectrical Resistors
753. H.W. Newkirk and H.H. Sisler, J.Amer.Ceram.Soc. 41, 93-103(19?8). (Disc.ibid. 42, 306-9(1959): Determinationof Residual Stl'eSSeSln TitaniulIl Carbide Base Cerrnetsby High-Temperature X-ray Diffraction
754. F.I. Orell and H.H. ltoge, paper s Fall Meeting, IVlet.Soc.,Cleveland, 1958: Altenate $Qnding Techniques forFuel Element Components
755. J.H. Oxley, J.F. Hannah, J.M. Blocher and I.E. Campbell,USo AEC. BMI-1297 (1958): Coating of Uranium Dioxide Powders with Metallic Tungsten Films
756. S.J. Paprocki et al., BMI-1259 (1958): Fabrication ofCermet Fuel Elements
757. S.J. Paprocki et al., paper: Fall Meeting, Met.Soc.,Cleveland, 1958: Pressure Bonding of Zircaloy-CladFlat-Plate Uranium Dioxide Fuel Elements
758. A. Petzold, Werkstoffe und Korrosion 9, 761-5 (1958):Kermische Uberzüge als Hochtemperatur-Korrosionsschutz für Metalle
759. V.V. Rassochin and M.A. Pura, Stanki i Instr.(Febr. 1958),12-4: Vergleich metallkeramischer und Schnellstahlz e r-apanungewe rkze'uge
760. J.C. Redmond. Off.Techn.Serv.,PB-131, 783 (1958): DesignParameters for Cermets
761. P.F. Rempes, B.C. Weber and M.A. Schwartz, Am.Ceram.Soc.Bull. 37 (1958), 334-9: Slip Casting of Metals,Ceramies and Cerrnets
762. A.E. Richt, CF-58-8-35 (1958): Metallographic Examinationof Irradiated Cerrnet Fuel Elements
763. R. Riviere and R. Bernard, J.Phys.Radium 19, 81-2 S (1958):Nachweis der inneren Spannung in WC-Co-Verbindungen
764. J.F. Roberts, Ceramics 9, Nr.115, 6-8,10 (1958): SinteredProducts and Cermets
765. Yu.N. Ryabinin, Piz.Met. i Metalloved. ~ (5), 893-9 (1958):The Uses of Super-Hard Alloys in High-Pressure Vessels
766. G.V. Samsonov and N.S. Strel'nikova, Ukrain.Fiz.Zhnr. 3,135-8 (1958): On the Thermoelectromotive Force-cfSome Metallic Borides and Carbides in Contact withCopper
- 48 -
767. I.M. Schifferli, Prod.Eng. 29 (1958), 84-5: Slip CastingIts Field Broadens
768. H. Schreiner, German Patent 1,029,571 (1958): SinteredComposite Material for Electrical Contacts
769. R. Scott and J. Williams, Trans.Brit.Ceram.Soc. 57, 199-209(1958): The Warm Pressing of U02 and U02-MetallVIixtures
770. S. Shapiro and M. Galvez, Proc.2nd Int.Conf., Geneva 1958,6, 516-20: A New Fabrication Technique for theProduction of Stainless-Steel Oxide-Dispersion ~uel
Elements771. 2.M. Shapiro, WAPTI-PMM-167 (1958): Fesume of Uraniwfi Oxide
Dat a Ir772. T. Shimohira and T. Yamauchi, Yogyo Kyokai Shi 66 (748),
83 (1958): Study on the Oxidation of Solld Solutionsof TiC-Cr")C 2 System and Cermets of TiC-Cr3C2-(Ni,Co) System
773. A. Siede and A.G. Metcalfe, PB Rept. 131 820 (1958), U.S.Govt.Besearch Bepts. 30 (2), 80-1 (1958): CermetPreparation by Reactions in the Iron-AluminumOxygen System
774. G.M. Slaughter, P. Patriarca and W.TI. Manly, Welding J. 37(6), 249-54s (1958): Bonding of Cermet-ValveComponents to Metals
775. w. Späth, Metall 12, 925-9 (1958): Die Festigkeit von Hartmetallen -
776. R. Steinitz, Jet Propulsion 28 (1), 15, 68-70 (1958):Recent Advances in Cermets
777. R. Steinitz et al., WADC-AF33 (616)-5084 (1958): An Investigation of the Mechanical Properties of Cermetsas Related to the Miclostructure
778. D.R. Stenquist and R.J. Anicetti, paper: Fall Heeting,Met.Soc.,Cleveland 1958: Fs.brication of CeramicFuel Elements by Swaging
779. S. StolchheiEl, '1'001 Engng 41,193-4 (1958): Cermet ControlRod Fabrication by-Powder Rolling
780. J.G. Stradley and T.S. Shevlin, Off.Techn.Serv., PB-l 51 143(1958): Alumina-Base Cermets
781. R. Takahashi, Rippon Kogyo Kaishi 74, 934 (1958): On theElectrolytic Corrosion of Tungsten Carbide-CobaltHard Metal
782. J.B. Townsend in: Metals for Supersonic Aircraft and Missiles(Am.Soc.Met. 1958), 353:b2: ReView, SummaryandEvaluation
783. P. Turillon and N.J. Grant, lVIit. AD-155 559, AF. WATIC-TR58-29 (1958): Preliminary Study of the SystemTitanium-Aluminum Oxide Extruded Alloys
784. W.P.Wallace, M.T. Simnad and B. Turovlin, Vortrag: FallMeeting, Met.Soc., Cleveland 1958: Fabrication andProperties of Uranium-Zirconium Hydride Fuel Elementsfor Triga Reactors
785. B.C. Weber et a1., Am.Ceram.Soc.Bul1. 37 (7),334 (1958):Slip Casting of Metals, Ceramics and Cermets
786. C.E. Weber and H.H. Hirsch, in: Powder Metallurgy of Nuc:iearEngineering (Am.Soc.Met., Cleveland 1958), 224-41:TIispersion Type Fuel Elements
- 49 -
787. F. Wever, W. Jellinghaus und T. Shuin, Forschungsbel'. Nordrhein Westf., 1958: Gemischtkeramische Sinterwerkstoffe aus Aluminiumoxyd und Eisen oder Eisenlegierungen
788. A.E.S. White, Brit. Patent 803,079 (1958): Metal-CeramicBody, Wiedes Carbidwerk FreYung, German Patent
1,042,449 (1958): Bodies of High-Melting Metals andMe taL Oxi des
789. A.E. 'Nilliams, Ind.Finishing 10 (1958), 22-6: BondingCeramies to Metals --
790. L.S. Wil1iams and J. Graham, proc.Austrian Atomic EnergySymp. Sect. 1153 (1958): Special Cerdmics andCermets Investigations
791. Vi. Wolek, Chemik 11, 113-6 (1958): Cermets
792. W.J. Wright, h.B. Gibbon and J. Williams, Powder Met.Nr.l/2,253-72 (l95d/59): 'I'he FabTication and Propertiesof Urunium-Oxide-Iron Cermets
793. S. Zirinsky and D.S. Carr, Techn.Proc. 45 t h Ocnc s Ame r .Electroplaters Soc. (1958), j7-104: ElectrodepositedNetallic and Flame-Spr0yed Ceramic Coatings
794. C.R. Agte, R. Kohlermann and E. Heymel, (Akademie-Verlag,Berlin, 1959), Schneidkeramik
795. N.A. Alekseeva, A.I. Bardnov and G.S. Kreimer, Izvest.Akad.Nauk SSSR, Otdel.Tekh.Nduk, Met i Toplivo },92-8 (1959): Effects of Composition, Structure andTesting Temperature on the strength, Hardness andIJuctility of TQ~gsten Carbide-Cobalt Cermets
796. B.C. Allen and W.TI. Kingery, Trans.Met.Soc. AlME 215 (1959):Surface Tension and Contact Angles in Some LiquidMetal-Solid Ceramic Systems at Elevated Temperatures
797. Ancn , , lüectr.lVIanufact. 63,9-10 (June 1 j59): Nature of Cer-am i,cMetal Bonds Investigated
798. Anon , , Engng 187, 90 (1959): Ceramics and Cermets: The Searchfor New High Temperature Materials
799. Anon., J. Iron and Steel Inst. 191, 65-6 (1959): PowderMetallurgy of Ceramic-Metal r~aterials (Symp.)
800. Imon., Mater.Design Engng 5u, 273-5; 317 (Oct. 1959):Properties of Materials: Refractory Ceramies andCermets; Ceramic, Cermet and Refractory Coatings
801. Anon., Office of Technical Services CTR-319 (1959): Cermets1940-59
802. Anon., steel 144, 34 (Jan. 1959): .2rocess ,.I:lkcs 1:letto'Cermets at Lower Cost (BibliogrLphy, 112 ref)
803. D.J. Armstrong, D. Murray and L.M. Hopkin, J. Less-CommonMetals 1:, 125-310 (1959): Techniques for CreepTesting zt High Temperatures
804. W.L. Aves, Vortrag: Electrochem.Soc.Columbus 1959: MetalCeramic
805. W.L. Aves, Metal Progress 75 (3), 90-94, 189-90 (1959):Coating for Re-Entry
806. J. Baird, R. Friddle, H. Bergua and J. Diaz, Nucl.Sci.Entng~ (1), Suppl. 130-1 (1959): Recent Improvementsin the Fabrication of the ISNSE Aluminum PlateFuel Element
- 50 -
B07. R.J. Beaver and J.E. C~~ningham, TITI-7559 (1959), 45-B:Recent TIevelopment in Aluminum-Base Fuel Elementstor Research Reactors
BOB. H. Bergua, E. Friddle, J. TIiaz ",nd J. Baird in: H.H. Hausnerand J.F. Schw~ar (eds.), Nuclear Fuel Elements(Reinhold Publ., New York 1959), Chap , 11,184-92:Fabrication of the ISNSE Fuel Element tor LowPower Research Eeactors
B09. J. Binder and B. Steinitz, Off.Techn.Serv. FB-151 722 (1959).WATIC-TR-58-432 (Pt TI): An Investigation of the 'Mechanical Properties of Cermets as Related tothe Microstructure
BIO. E.W. Blocker, C.A. Hauck, S. Sklarev and A.V. Levey, WADCTE-59-102 (1959): Development and Evaluation ofInsulting Type Ceramic Coatings
811. H.J. Boosz, Trans. AlME 215, 395-7 (1959): Heat Content andSpecific He~t of WC-Co Alloys
812. H.J. llorchardt, J.lnorg.Nucl.Chem. 12, 113-21 (1959): Observations on Beactions of-Uranium Compounds
813. D.H. Br-adhurs t and A.S. Bucharian , J.Phys.Chem. 63, 14B6-B(1959): 'l'he Surface Properties of Liquid Lead inContuct wi th Ur-ani um Dioxide
814. W. Cannistraro in: Sheet li'aterials for High Ter;peratureService (Am.Soc.N;et., Cleveland 1959), 25-36:Ceramic Coatings fOI Protection of High TemperatureMaterials
B15. J. Castelfranco, Ceramics 10, 13-20 (M"y 1959): Keramische1v1a teriali en für Uberschal1raketen
816. B. Cech, Silikaty 2, 192-201 (1959): CennetyB17. J.H. Cherubini and C.F. Leitten, CF-50-7-1 (1959): Zirconi
um TIiboride, Boran Nitride and BOI-on CarbideCompatibility with Austenic Stainless Steel
818. P.T. Chiarito and J.E. Johnston, Mater.TIesign Engng 50,IBO- (Sept. 1959): Bettel' Cermets Need e d tor GasTurbine Parts
819. P.T. Chiarito and J.R. Johnston, NASA-M-2-13-59E (1959):Experimental Evaluation of CerTIlet Turbine statorBlades for Use at Elevated Gasfemperatures
820. G.J. Comstock, AECU-4410 (1959): U02-Bearing Fuel Flates821. L.A. Conant, U.S. patent 2,872,724 (10 Feh195~: Oxidizeo.
Chromium-Alumina TiIetal Cerccmc c Protective Tube
822. C.T. Cox, U.S. 2,8~9,740, August 18, 1959: Brake Materialtor Extreme Heavy Duty
823. J. Cunningham ano. W. Maxwell, paper: Symposium on NuclearFuel Elements, New York 1959: TIispersion Type Elements
B24. R.W. Dayton and C.R. Tipton, BMl-1315, BKI-1324, BMI-1330,BMI-1340, BMI-1366, BMl-1377, BMl-1391, BMI-1398,BMI-1632 (1959): Progress Relating to CivilianApplication
B25. G.C. TIeutsch in: High Temperature Materials (J.Wiley, NewYork 1959), 190-204: Use of Cermets as Gas-TurbineBlading
826. M. Dlouhy, Hutnicke Listy 14 (8), 692-5 (1959): BendingStrength of Sintered Carbides at Elevated Temperatures
B27. P.H. Eisenberg, U.S. Patent 2,872,312 (1959): Manufactureof Cermets and Metal-Coated Nonconductors by Nonelectrolytic Plating
- 51 -
828. M. Epner and E. Gregory, Planseeber.Pulvermet. 7 (3), 120-81959: Carbide of Elements of the Fifth Group of thePeriodic Table Bonded with Steel
829. V.N. Eremenko and T.Ya. Kos oLapova , Voprosy Poroshkova L[et.i prochnosti Materialov (Akad.Nauk SSR, 1959), No 7,3-6: Interaction of Titanium Carbide with Nickel -
830. V.N. Eremenko und J.V. Najditsch, Zur.Fiz.Chim. 33, 1238-45(1959): Untersuchungen über Benetzbar-keit;von Oxydenmi t flüssigen Metallen. Byul. Inst .I\,[etallokerami Spets.Splavov, Akad.Nauk Ukr. SSR 4, 38-51 (1959):Wetting of Solid Surfaces of Certain-RefractoryCompounds wi th Liquid l''Letal
831. M. Ference, Machiney 65, 139 (March 1959): Cermets LookPromising to Ford Researchers
832. E. Fitzer. D.S. 2,377.114. March 10. 1959: Method of PloducingSintered Metallic Bodies
833. L. Frsnk, D.L. Eaton and J.R. Bedell, TID-7559 (P5) (1959)
834. F.I!I. }'uhath, J.Am.Cerarn.Soc. 42,423-9 (1959): Internalstresses in Model Ceramic Systems
835. P. Galmiache and A. Hivert, French Patent 1,198,870 (1959):Process f'o r the M~Lllufacture or NucLear ?uel l\IIaterialsand Products
836. A. Gatti, Trans.Illet.Soc. AIl,J.E 215, 753-5 (1959): Iron-Alumina Materials ---
837. T.M. Giles. T.S. Shevlin 2nd J.O. Everhart, NP-8965 (1959):Stresses in Polycomponent Solid Ceramics or Ce:cmets
838. J.S. Gill and W.L. Marshall, CF-59-8-95 (1959): The CompoundCuO'3 U03
839. Y.G. Godron, Silicates Ind. 24, 539-49 (1959): Wettabilityof Glass/Metal arid oflietal/Ceramics
840. C.G. Goetzel e t a1., U.S. 2,899,338, August 11,19')9:Thermal Element
841. E.W. Goliber, U.S. Patent 2,872,725 (1959): Chromium-BaseCermets
842. H.B. Goodwin, End v Res ea.r'ch I/lag. l, Nos. 3 and 4 (1959): TheWorld's Hottest Alloys
843. J.W. Graham, W.F. Ford and N.W. Newkirk, J.Am.Ceram.30c. 42,306-8. Disc. 309 (1959): Residual Stresses inTitanium Carbide-Nickel Cermets
844. G.B. Greenough, Nuclear Power 4, 92-6 (1959): Brennstoffelemente heute und morgen
845. J. Gurland, Trans. AHm 215, 601-7 (1959): Observations onthe structure and Sintering Mechanism of CementedCarbides
846. H.T. Hahn, Ind.Eng.Chem. 51, 197-9 (1959): Uranium-Oxide-Liquid Metals --
847. J.J. Harwood, Am.Soc.Mech.Eng. Paper) 59-MD-2 (1959): NewDevelopment in Metals and Ce:c~mics for HighTemperature Service Above 1000 F
848. H.H. Hausner and J.F. Schumal', Nuclear Fuel Elements(Reinhold Publ., New York 1959)
849. R.F. Hehemann and G.M. Ault, High Temperature Materials( J. Wiley. New York,1959)
850. W.H. Herz, Mater. Design Eng. 49 (4), 98-9 (1959): Celmets,Two New Forms --
- 52 -
851. E. Heyrnel, Betrieb 9, 226-8 (1959): Die mechanische Befestigung von Hartmetall-und Keramikschneidplatten
852. E.E. Hoffmann, OF~L-7624 (1959): Corrosion of Materialsby Lithium at Elevated Temperatures
853. A.G. Holms and A.J. Repko, Non-Destructive Test. 17 (3),156-64 (1959): Cermet-Body Non-DestructiveTest DataEvaluated by Spin Test of Blades and Bend Testof Bars
854. G.R. van Houten, Bull.Amer.Ceram.Soc. 38, 301-7 (1959):A Survey of Ceramic to Metal Bonding
855. V.N. Jeremenko und J.V. Najdic, Zur.Fiz.Chim. 33 (6),(1959): Benetzung von Oxiden durch flüssi6e Metalle
856. E. Kato and S. Naka, N&goyo ~ogyo Gijtsu Shikensko Hokoku8 (3), 78-84 (1959): Sintering of TiC-Base CennetsIt. Shrinkage of TiC-Ni Compact by Heating in VaCUUln
857. R. Kieffer, F. Benesovsky und K. Messmer, Metall 13, 919-22(1959): Hafniumcarbidhaltige Hartmetalle--
858. W.D. Kingery, paper: Symposium High Temperature TechnologyAsilomar, 1959: Oxide and Cermets
859. N.R. Koenig. NAA-SR-M-~730 (1959): Composition, Burnup andSome Physical Properties of Cermet Fuels
860. G.S. Kreimer und N.A. Alexejeva, Isvest.Akad.Nauk USSR,Metallurgiga i toplivo 3,92 (1959): Festigkeit,Härte und Zähigkeit von-WC-Co-Legierungen in Abhängigkeit von deren Zusammensetzung, Struktur undTemperatur
861. J. Kroehler, NAA-SR-4579 (1959): Comparative Properties ofDispersion-Element Components
862. V.A. Kuzmenko, Zavodskaya Lab. 25 (3), 351-3 (1959): Devicefor Measuring Young's Moaulus at High Temperatures
863. D.J. Larin and E.E. Muller, Trend in Engng 11, 19-23 (April1959): Refractory Ceramic Coatings --
864. J.H. Lauchner, D.G. Bennett and G.L. Morgan, WADC-TR-59-412(1959): Nondestructive Tests for Cerarnic, Cermetand Graphite Materials
865. H. W. Lavendel and C.G. Goetzel in: High Temperature Materials(J. Wiley, New York 1959), 140-54: Recent Advancesin Infiltrated Titanium Carbides
866. J.V. Long and J.V. Furth, U.S. Patent 2,898,236, August 4(1959): Protective Cermet Coating Method and Materials
867. J.V. Long and J.V. Furth, U.S. Patent 2,900,276 (1959):Cermet Composition and Method of Coating Therewith
868. J.E. Mahaffy and W.O. Woods, Watertown Arsenal, Rodman Lab.Rept. RPL 43/1 (1959): Evaluation of Alloy BinderSystems in Cemented Carbides
869. C.R. Mason, J.D. Walton, M.D. Bowen and W.T. Teague, NP7121 (1959), Quart.Rep.No. 13: Investigation ofHigh-Temperature Resistant Materials
870. T. Matsukawa, U.S. Patent 2,894,839 (1959): Composite SilverCadmium Oxide Powder
871. F.A. Mauer and L.H. Bolz, USGRR-31 (1959), 451. PB-136066(1959): Measurement of Thermal Expansion of CermetComponents by High-Temperature X-ray Diffraction
Maxwell in H.H. Schumal', Nuclear Fuel Elements (Reinhold Publ., New York 1959), 170-83: Tabular-TypeDispersion Elements
- 53 -
873. S.l. Megeff and J.L. Zambrow, Inst.Met.Div., Spec.Rept.Sero 5, Nr.7, 25-8 (1959): Fabrication of AI-PlateType Elements Containing U02 as the Fuel
874. Met&lwerk Plansee, Brit.Patent 809,555 (1959): SinteredChromium-Base Bodies for Use at High Temperatures
875. R. Mitsehe und H. Blaha, in: F. Benesovsky, Herausg. Hochschmelzende Metalle, 3. Plansee-Seminar, 1958(Springer, Wien 1959), 438-52: Beitrag zur Technikder elektronenmikroskopischen Untersuchungen vonlnfra-Cermets
876. E.M. Modl, U.S. Patent 2,909,834 (1959): Cermets withHigh Impact Strength
877. R.L. Mohan, AD-259 062 (1959): Rollbelastungsfähigkeit vonCermet-Formkörpern
878. D.J. Molella, PA-TM-ME-5-59 (1959): lnvestigation andEvaluation of Available Hypersonic Probe Materialsand Oxidation-Resistant Coatings for Possible Useat 40000F for 60 Seconds
879. N.C. Moore und J.B. Huffadine, Nuclear Power 4, 86-94 (1959):Die Zukunft keramischer Brennstoffelemente
880. J.F. Nachmann and L.E. Olds, Steel 144,89 (Jan.1959): MetalProcess Quadruples Hot Strellgth
881. H.W. Newkirk jr., H.H. Sisler and J. Graham, J.Am.Ceram.Soc. 42, 306-9 (1959): Residual Stresses in TitaniumCarbide-Nickel Cermets
882. E. Niki, S. Kohara and M. Tajiri, Koku Kenkyusho Shuho,Tokyo Daigaku 1, 372 (1959): Hot-Pressing of TiC-Ni Cermet -
883. J. T. Norton in: High Temperature Materials (J. Wiley, NewYork 1959), 119-24: Cermets and Bonded Hard Metals
884. E.I. Onstatt and G.D. Cremer, U.S. Patent 2,894,837 (1959):Method for Producing Cemented Carbide Articles
885. J.H. Oxley und J.F. Blocher, Batelle Techn.Rev. 8 (6) (1959):Keramische oder metallkeramische Pulver mit Metallüberzügen ergeben Werkstoffe mit besonderen Eigenschaften
886. J.H. Oxley, J.F. Hannah, J.M. Blocher and I.E. Campbell,Vortrag: Elektrochem.Soc., Columbus 1959: CoatingUranium Dioxide Powders with Metallic Films
887. H. Palmour Irr, W.W. Kriegel, J.J. DuPlessis and G.O. HarrelI,N. Carolina State Coll.Dept., Eng.Research Bull(1959),No. 73: Selected Abstracts on the MechanicalBehaviüur of Ceramics
888. N.M. Parikh, High Temperature Materials (J. Wiley, NewYork 1959), 169-81: Müdes of Fracture and Slip inCemented Carbides
889. N.M. Parikh and M. Humenik in: High Temperature Materials(J.Wiley, Lendon 1959), 155-68: Wettability andMicrostructive Studies in Liquid-Phase Sintering
890. S.J. Paprocki, D.L. Keller, G.W. Cunningham ans A.K. Foulds,BMI-1365 (1959): Development of Uranium Nitride Stainless Steel - Dispersion Fuel Elements
891. T.J. Planje, paper: AlME, San Francisco 1959: Cermets Current Types and Applications
892. N.M. Popova, A.F. Platonova and L.V. Zaslavskaya, Zavodskaya Lab. 25 (3), 271-3 (1959): Chemieal Methodsof Phase Analysis of Metalloeeramic Alloys Basedon Titanium Carbide and Chromium and Titanium Diborides
- 54 -
8~3. J.M. Puri, Research (London), 12 (7), 246 (1959): Use ofCeramic Materials for Gas Turbine Blades
894. W. Richter, Fertigsungstechnik (1959), 80-2: Uber metallhaltige Schneidkeramiken
895. O.J.C. Runnalls, in: H.H. Hausner and J.F. Schumar, NuclearFuel Elements (Reinhold PubI., New York 1959),228-56: Ceramic Fuel Elements
896. T. Sata und R. Kiyoura, J.Ceram.Assoc. Japan 67, 116-23(1959): Herstellung von Cermets im System A1203 -CrdUTCh Heißpressen
897. L.M. Schifferli, Metal Progr. 76 (4), 99-102 (1959): SlipCasting --
898. P. Schwarzkopf in: Tercera Reunion Internac.Reactividadde los Solidos 1956, Madrid 1959, 641-7: GesinterteTurbinenschaufelwerkstoffe, Cermets, Molybdän
899. H. Shapiro and R.M. Powers, SCNC-271 (1959): UraniumdioxideFuel Materials with Improved Thermal Conductivity
900. F.D. Shaw, Vortrag: Electrochem.Soc., Columbus 1959:Refractory Ceramic Coatings Today and Tomorrow
901. J. Sheinhartz, Nucl.Sci. and Engng 2 (1), 131 (1959): NonOxide Dispersions Type Fuel-Elements
902. J. Sheinhartz, SCNC-273 (1959): Dispersion Type Materialsfor Fuel Elements (TI): Uraniumcarbide and Uraniumsulfide Dispersion Materials
903. J. Sheinhartz and G.L. Zambrow, SCNC-266, -273 (1959):Dispersion Type Materials for Fuel Elements (I):Uraniumnitride and Uraniumsilicide Dispersion TypeMaterials
904. T.S. Shevlin, News in Engng 31,17-19, 54 (April 1959):Strong Tough Cermets--
905. L.B. Sibley, C,M. Allen et al., U.S.Govt.Res.Rept. 31(1959), 231. PB 151 483 (1959): Study of RefractoryMaterials fbr Seal and Bearing Application inAircraft Accessory Units and Rocket Motors
906. S. Slarew, paper: Electrochem.Soc., Columbus 1959:Refractory Coatings for Ramjet and SupersonicAircraft Applications
907. V.V. Skorochod, Inz.Fiz.Zur. 2 (8), 51-8 (1959): ElektrischeLeitfähigkeit von Mischungen aus Leitern undNichtleitern
908. N.V. Sokolov and A.I. Levin, Zh.Prikl.Khim 32,1774-81 (1959):Electrolytic Treatment of Metalloceramic Drawplates
909. J.W. Taylor in: H.M. Finniston and J.P. Howe, Progr.Nucl.Energy V, Metallurgy and Fuels 2 (PergamonPress, London 1959), 398-416: Wetting by LiquidMetals
910. J.A. Ternisten, Metaux (Oorrosion-Inds.) 34 (404), 151-61(1959): Heterogeneous Catalysis in-Metallurgy,Affinallurgy and Ceramallurgy
911. F.C. Wagner, U.S. Patent 2,875,510, March 3, 1959:Bearing Composition
912. J.D. Walton jr. and N.E. Poulos, J.Am.Ceram.Soc. 42 (1),40-9 (1959): Cermets from Thermite Reactions
913. R.C. Wangh, ORNL-2701 (1959): The Reaction and Growth ofUranium-Dioxide-Aluminum Fuel Elements and Compacts
914. C.E. Weber, Progress in Nuclear Energy, Series,V, Volume2, Metallurgy and Fuels (Pergamon Press 1959),295-362: Progress on Dispersion Elements
- 55 -
915. W.W. Wellborn, Mater.Design Eng. 49 (2), 79-81 (1959):Vfuy and where to Use CarbIUe-Base Cermets
916. R.J. Westerho1m, Grits and Grinds 50 (4), 3-12 (1959):Rokide Ceramic Coatings --
917. L.S. Williams, Australasian Eng. 51, 50 (1959): BasicConcepts and TeChni~ues o~Modern Ceramics
918. R.E Wilson, L.B. Coffin and J.R. Tinklpaugh, U.S.Govt.Res.Rept. 31 (1959), 231. PB- 151.115 (1959):Metal and Self-Bonded Silicon Carbide
919. W. Wolf, Fertigungstechn. Betrieb 9, 220-3, Disk. 223-6(1959): Keramik und ihre Anwendung als Schneidstoff
920. J.M. Wouldbroun, Brdnance 43,501-5 (1959): Cermets forOrdnance --
921. S.J. Yosim, A.J. Darnell, W.G. Gehmann and S.W. Mayer,J.Phys.Chem. 63,230-3 (1959): The Bismuth-BismuthTrichloride System
922. K. Zeman, Techn.Zpravy VUPM Nr.l, 10-26 (19D9): Anwendungkeramischer Gießmethoden in der Pulvermetallurgie
1960
923. C.M. Allen, TID-7604 (1960), 227-31: Special Seal Programs924. Anon., Am.Ceram.Bull. 39, 473 (1960): Classification of
Electronic Ceramies925. Anon., British Patent 844,833 (Aug.l7, 1960): Nuclear Fuel
Preparation926. Anon., CNLM-2393 (1960): Data Book on Physical Properties
of Materials927. Anon., Electronics 33, 76 (Aug. 1960): Aluminum Oxide
Capacitors Take 500°C - Construction Uses HighOxide Cermet
928. Anon., Engng 189, 679 (1960): Hot Bearings Made from Cermet929. Anon., Mater. Design Engng 52, 150 (Dec. 1960): Cermets
Strengthened by Meta! Fibres930. Anon., Metal Treatment 27, 60-2 (1960): The Cermets931. Anon., Metal Treatment 52, 287 (Nov. 1960): Properties
of Materials: Refractory Cerarnics and Cermets932. Ancn , , NYO-9187 (1960): Corrosion and Radiation Damage
Resistant Fuel Material933. Anon., Powder Reactor Technol. 4, 85-96 (1960-61): Fast
Breeders -934. A.I. Avgustinik, Zhur.Vsesoyuz.Khim.Obshchestva im. D.I.
Mendeleeva 2 (2), 156-68 (1960): Cermets935. A.I. Balyaev and E.A. Zhemchuzhina, Sb.Nauchn.Tr.lnst.
Izvetn.Metal 33, 132-42 (1960): Wetting of Metallicand Heat Resistant Materials by Molten Lithium
936. A. Blainey, Meta1 ProgI'. 77, 104-8 (Jan. 1960): Hot PressingPowders in Englan~
937. T.H. Blake~ and A.E.S. White, Chem. and 'Ind., p 305-6(March 1960): Improvement of Refractories by theIncorporation of Metals
938. M.A. Breding and H.R. Bronstein, J.Phys.Chem. 64, 64-7 (1960):Miscibility of Liquid Metals with SaltS-IV. TheSodium-Sodium Halide Systems
- 56 -
939. M.A. Breding and J.W. Johnson, J.Phys.Chem. 60, 1899-1900(1960): Miscibility of Metals with saIts V. TheRb-Rb Halide Systems
940. A. Briggs, AERE-M-737 (1960): Observations on the Wetting ofUranium Dioxide by a Platinum Alloy
941. D.H. Buckley and R.L. Johnson, NASA-TN-D-302 (1960): Use ofLess Reactive Materials and More Stable Gases toReduce Corrosive Wear when Lubricating with Haloge~
ated Gases942. J.J. Byerley, CRFD-971 (1960): The Compatibility of Uranium
Dioxide with Refractory Metals and Refractory MetalsThermocouples at Temperatures above 17500 C
943. B. Öech, Silikaty 4 (1),1-9 (1960): Structural Stability ofTitanium Carbide Cermets
944. C.C. Cronin in: J.R. Tinklepaugh, W.B. Crandall (eds.):Cermets (Reinhold Publ., New York,1960), 158-66:Testing and Application of Cermets. ElectronicRefractory Cermets
945. W.H. Cook, ORNL-2902 (1960): Corrosion Resistance of VariousCeramics and Cermets to Liquid Metals
946. R.W. Dayton and C.R. Tipton, BMI-1398, 1403, 1409, 1430,1448, 1455, 1464, 1469, 1473, 1480, 1489, (1960):Progress Relating to Civilian Applications
947. H.C. Duneaan, PB 162 444 (1960): Ceramic to Metal Seal byPressed Powder Technique
948. M. Epner and E. Gregory in: J.R. Tinklepaugh and W.B.Crandall (eds.), Cermets (Reinhold Publ., New York,1960), 146-9: Carbide-Base Cermets. Titanium CarbideSteel Cermets
949. C.O. Fain, C.M. McClure and G.C. Robinson, Clemson College1960: Literature Survey of Uses of Uranium Oxide inthe Ceramic Industry
950. J.D. Fleming and J.W. Johnson, ORO-325, Pt.2 (1960):Materials for High Temperature Nuclear EngineeringApplications
951. R.K. Francis and J.R. Tinklepaugh, J.Am.Ceram.Soc. 43, 560-3(1960): Thermal Conductivity in Ceramic-MetaILaminates
952. W.C. Francis and S.E. Craig, IDO-16 574 (1960): ProgressReport on Fuel Element Development and AssociatedProjects
953. H. Friedemann in: J.R. Tinklepaugh and W.B. Crandall (eds.),Cermets (Reinhold Publ., NewYork 1960), 209-32:Bibliography on Cermets (1949-59)
954. J.J. Gangler, K.A. Sanders and S.L. Orell, NASA-TN-D-262(1960): Uranium D±oxide Compatibility with RefractoryMetals, Carbides, Borides and Oxides Between 3500and 50000 F
955. J. Golden und G.W. Rowe, Brit.J.Appl.Phys. 11 (11),(1960): Verschleiß von harten und weIchen Phasenin mit Kobalt abgebundenem Wolframkarbid
956. A. Goldsmith, T.E. Watermann and H.J. Hirschhorn,WADC-TR58-476,vol. IV (Rev.),(1960): ThermophysicalProperties of Solid Materials, vol.IV: Cermets,Intermetallics, Polymerics and Composites
957. D.E. Gücer, Bull.Techn.-University Istanbul 13 (2), 69-82(1960): Design for the Application or-UltrasonicEnergy to Metallurgical Processes (WC-Co)
- 57 -
958. A.B. Graham, Met.lnd. 97, 455-8, 480-2, 502-4, 521, 535-8(1960): Extrusion of Hardmetals
959. J. Gurland, PB-159 004 (1960): The Influence of Basis Designand Processing Variables on the Properties of WC-Co:A.lloys
960. H.T. Hahn, U.S. Patent 2,937,982 (May 1960): Method ofMaking U02-Bi-Slurries
961. R.L. Hammer, W.D. Manly and W.H. Bridges in: ReactorHandbook (2nd Ed., Intersci.Publ., New York 1960),502-19: Carbides and Cermets
962. J.B. Huffadine in: P.Popper (ed.), Special Ceramics (Rugby1960), 220-36: The Fabrication and Properties ofMoSi2 and MOSi 2-A1203
963. H.B. Huntress in: J.R. Tinklepaugh, W.B. Crandall (eds.),Cermets (Reinhold Publ., New York, 1960), 166-9:Testing and Application of Cermets. Cel'mets inFriction Materials
964. M. Rumen1k jr. and T.J. Whalen in: J.R. Tinklepaugh and W.B.Crandall (Reinhold Publ., New York, 1960), 6-49:Physicochemical Aspects of Cermets
965. J.R. Johnson in: J.R. Tinklepaugh, W.B. Crandall (eds.),Cermets, (Reinhold Pubi., New York, 1960), 191-6:Testing and Application of Cermets. Applicationof Cermets to Nuclear Devices
966. W.D. Jones, Fundamental Principles of Powder Metallurgy(Arnold, London,1960)
967. D.L. Keller, Reactor Handbook 1 (13), 304-30, MaterialsC!ripton (ed.), InterscTence Press, 1960):Dispersion Fuels
968. D.L. Keller, E.S. Hodge, C.B. Doyer, J.B. Fox, D.E. Kizerand S.W. Porembka, BMI-1475 (1960): Progress on theUse of Gas-Pressure Bonding for Fabrication Low-CastCeramic,Cermet and Dispersion Fuel
969. W.F. Kenney and H. Suskind, BNL-648 (1960): EngineeringScale Preparation and Characteristics of Th02-BiSlurries
970. W.D. Kingery, Proc.lnt. Symposium on High TemperatureTechnology, Asilomar 1959 (McGraw HilI, New York,1960), 76-89: Oxides for High-Temperature Applications
971. N.R. Koenig and B.A. Webb, NAA_SR-3880 (1960): Propertiesof Ceramic and Cermet Fuels for Some Graphite Reactors
972. H. Kotsch, Wiss.Z.Techn. Hochschule Dresden 9, 1203-6 (1960):Sinterwerkstoffe auf Chromborid-Basi~
973. H. Kubota, ORNL-2662 (1960): Study of Chemical Changes inU02-Al Reactor Fuel Elements During Heat Treatmentat 600 0 C
974. S.M. Lang, Nat.Bur.Stand.Monograph 6 (1960):Properties ofHigh -Temperature Ceramics arid Cermets - Elasticityand Density at Room Temperature
975. J.H. Lauchner, D.G. Bennett and G.L. Morgan, PB Rept.161 815 (1960); U.S. Govt.Research Repts. 34,309-10 (1960): Nondestructive Tests for Ceramic,Cermet and Graphite Materials
976. F.V. Lenel in: J.R. Tinklepaugh, W.B. Crandall (ed.),Cermets,(Reinhold Pubi., New York,1960), 81-5: FabricatianTechniques. Resistance Sintering of Cermets underPressure
- 58 -
977. C.L. Marshall in: J.R. Tinklepaugh, W.B. Crandall (ed.),Cermets, (Reinhold PubI., New York,1960), 109-19:Oxide Base Cermets. Chromium-Alumina Base Cermets
978. M.J. Mayfield, U.S. Patent 2,961,325 (1960): Cermet Bodies979. S. Maziliauskas, Ceram.Age 75 (3), 40-1 (1960): Entwicklun
gen auf dem Gebiete-Uer Metallkeramik980. P.I. Melnitschuk, V.N. Klimenko and A.B. Ljatschenko, Inf.
Listok No.225 (Kiew 1960): E-Modul von ChromkarbidNickel
981. A.J. Meyer jr. and G.D. Deutsch in: J.R. Tinklepaugh, W.B.Crandall (ed.), Cermets, (Reinhold PubI., New Yor~
1960), 196-207: Testing and Application of Cermets.Application of Cermets to Aircraft Power Plants
982. H. Meyer, Werkstoffe und Korrosion 11, 601-15 (1960):FlameSpraying with Alumina --
983. W.T. Monagle, S.A.E. Journal 68, 54-62 (1960): CeramiesHelp Solve Rocket Problems: Bodies and CoatingsMade from Ceramies are Successful1y Rep1acing OtherMaterials
984. W.E. Moody, W.D. iVhitehead and W.W. KriegeI, J.Am.Ceram.Soc. 43, 634-40 (1960): Activation Energy forDiffusion of Xe through MgO-Ni-Cermet Compacts
985. L. Moudy, L. Silvermann and W. Houck in: Advances in X-RayAnalysis (Plenum Press, New York,1960),Vol.l, 271-81:Determination of U02 in Stainless Steels
986. P. Murray, Powder Met. 2, 64-80 (1960): Metal-Cermic Mixtures987. H.W. Newkirk, H.H. Sisler and T.S. Shevlin, Am.Ceram.Soc.
Bull. 39,370-6 (1960): Microstructural Changes inTitanium Carbide-Base Germets at 20000 F
988. C. Nishimatsu and J. Gurland, Trans.~m.Soc.Met. 52, 469-84(1960): Experimental SUI'vey of the Deformation ofthe Hard-Ductile Two-Phase Al10y System WC-Co
989. R.A. Noland, D.E. Walker and L.C. Hymes,ASTM Spec.Techn.Publications No. 276 (1960), 336: Fabrication ofU308-Aluminum Dispersion Fuel Elements by Extrusion
990. J.M. Nowak, S.A.E. Trans. 68, 571-7 (1960): Refractory NonMetals for Use in Hypersonic Aircraft
991. Nuc1ear Materials and Equipment Corp., NUMEC NYO-2797, 2799,2801 (1959), 2804, 9184, 9186, 9187 (1960): Corrosionand Radiation Damage
992. A.E. Ogard, W.C. Pritchard, R.M. Douglass and J.A. Leary,TID-12 562 (1960): The Powder Metal1urgy of PlutoniumFuel Materials
993. L.E. Olds, PB Rept. 147 737 (1960); Govt. Research Repts.34 (2), 202 (1960): Development of Copper-Base Cermetby Melt-Saturation Method
994. S.J. Paprocki, D.L. Keller, G.W. Cunningham and D.E. Kizer,BMI-1448, 1487 (1960): Preparation and Properties ofU02 Cermet Fuels
995. F.R. Paulsen, Chem. Process Eng. 41, 49-52 (1960): Ceramicsand Cermets for Nuc1ear Fuels
996. B.Ya. Pines, Zhur.Vsesoyuz.Khim.Obshchestva im D.I. Mendeleeva5 (2), 173-80 (1960): Sintering and Diffusion Creepof Metal-Ceramic Bodies
997. G.L. Ploetz, Am.Ceram.Soc.Bul1. 39,362-5 (1960): CeramicMaterials for Nuclear Reactor Controls and Poison
998. P.Popper (ed.), Special Ceramics (Heywood, London,1960)
- 59 -
999. J.R. Riddle, ORNL-2839 (19607: Thermal Expansion of U308Al Cermets
1000. E. Ryshkewitsch, Oxide Ceramics (AcademicPress, New York,1960)
1001. S. Saito, J.Ceram.Soc. Japan 68, 267-73 (1960): Sinteringof Cermets in the TiC System
1002. E.M. Savicki und A.I. Vlasov, Cvetnyje Metally (1960),NI'. 7, 72-7: Sinterkörper aus Kupferpulver und Oxyden
1003. A.V. Savin und J.A. Eiduk, Tverdyje Splavy (1960), No.2,15-23: Herstellung von WC-Co Hartmetallen für denGerätebau
1004. I.N. Schaporova, E.A. Schtschetelina und S.E. Serebrova,Tverdyje Splavy (1960), Nr.2, 90-104: Einfluß derBindemetallphase auf die mechanischen Eigenschaftvon WC-Co-bzw.WC-Ni-Hartmetallen
1005. W. Schatt, nie Technik 15 (7), 486-94 (1960): Uber einigeVerfahren und Probleme der mechanischen Prüfungvon spröden Hochtemperaturwerkstoffen
1006. W. Schatt, PlanseebeI'. Pulvermet. 8, 122-9 (1960): Wettingof Oxide by Liquid Metals -
1007. T.S. Shevlin, Vortrag: Am.lnst.Chem.Eng. 42, Ann. Meeting1960: Chemical and Mechanical BehaVTour of Cermets
1008. T.S. Shevlin,in: J.R. Tinklepaugh, W.B. Crandall (ed.),Cermets, (Reitihold PubI., New York,1960), 50-5:Preparation of Oxides; 97-109: Oxide-ßase Cermets.Alumina-Metal Cermets
1009. n.R. Snoke, NP-9677 (1960): Development of Iron PropellantSystems
1010. H.G. SOWffian and G.L. Ploetz, KAPL-1245 (1960): The Application of Cold-Powder Extrusion and Sintering to theFabrication of Stainless-Steel-Uranium Dioxide Fue1Elem:ent
1011. E.J. Soxman,in: J.R. Tinklepaugh, W.B. Crandal1 (ed.),(Reinhold PubI., New York,1960), 181-91: Testingand Application of Cermets. An Impact Test for Usewith Cermets
1012. M. Sugiyama und H. Suzuki, Kogyo Zassi 63, 1094-1100:Cermet mit Titankarbid als Grundstoff
1013. M. Sugiyama and H. Suzuki, J.Japan Inst.Met. 24, 618-22,622-5 (1960): Hot Pressing of TiC-Co-Cermets
1014. M. Sugiyama and H. Suzuki, J.Japan Inst.Met. 24, 689-92(1960): Vacuum-Sintering of TiC-Ni-Cermets
1015. M. Sugiyama, H. Suzuki and A. Hara, J.Japan Inst.Met. 24,740-3 (1960): Some Observations on the Fracture-ofCermets
1016. M. Tailot, Compt.rend. 251, 1362 (1960): Etude magn{tiquede l'e~robage par pel1icules de cobalt des grainsde carbures du tungstene
1017. J.R. Tink1epaugh,in: J.R. Tinklepaugh, W.B. Crandal1 (ed.),(Reinhold PubI., New York,1960),Cermets, 170-80:Testing and Application of Cermets. Metal Reinforcement and Cladding of Cermets and Ceramics
1018. J.R. Tinklepaugh, W.B. Crandall (eds.), (Reinhold PubI.,New York 1960): Cermets
1019. J. Uhlmann, Wiss.Z.Techn. Hochschule nresden 9, 1190-1202(1960): Korrosionsbeständige Sinterwerkstoffe aufChromkarbid-Nickel-Basis
- 60 -
1020.J.D. Walton, N.E. Poulos, C.R. Mason, Ceramic Age 12 (6),39-45 (1960): The Use of Thermite Reactions toProduce Refractory Cermets
1021. J. Wambol~in: J.R. Tinklepaugh, W.B. Crandall (ed.),Cermets, (Reinhold Publ., New York, 1960), 86:Fabrication Techniques. Explosive Isostatic Forming;122-~: Carbide-Base Cermets. Properties of TitaniumCarblde-Metal Compositions
1022. B.C. Webe~ in: J.R. Tinklepaugh, W.B. Crandall (ed.),Cermets (Reinhold Publ., New Yor~ 1960), 58-73:Fabrication Techniques. Slip Casting of Cermets
1023· B.C. Weber, M.A. Schwa~Lin: J.R. Tinklepaugh, W.B. Crandall(ed.), Cermets, (Re i.nho Ld PubI . , New Yor~ 1960),119-21: Oxide-Base Cermets. Metal-Modified Oxides.154-8: Testing and Application of Cermets. ContainerMaterials for Melting Reactive Metals
1024. K. Weigel und W. Track, Metall 17, 433-6 (1960): DasTränken poröser keramischer Körper mit Metallen
1025. J.V. West,in: J.R. Tinklepaugh, W.B. Crandall (ed.), Cermets(Reinhold Publ., New York, 1960), 86-96: A Summary ofGood Practice in the Pressing of Cemented Carbides
1026. A.E.S. White, Chem.Ind. (1960), No. 12, 305-6: Improvementof Refractories by the Incorporation of Metals
1027. A.E.S. White and D.W. Brown, Brit. Patent 844,773 (1960):Molybdenum-Alumina Cermet
1028. J. White, Proc.Int.Symp.High Temp.Technol., Assimolar 1959(McGraw HilI, New York, 1960), 241-52: High Temperature Research in the Uni ted Kingdom
1029. D.N. Williams, J.W. Roberts and R.I. Jaffee, Modern Casting37 (3), 81-5 (1960): Formation of Dispersions inMolten Copper by Mechanical Mixing, Trans.Met.Soc.AlME 218, 574-5 (1960): Formation of a Dispersion inCopper by Reaction in the Melt
1030. J. Williams, U.S. Patent 2,965,480 (1960): Method ofMaking Uranium-Uranium Monocarbide Cermet
1031. L.G. Wisnyi, Ceram.Ind. 74 (4), 124-6, 141 (1960): KeramischeWerkstoffe in Kernreaktoren
1032. J.C. Withers, Vortrag: Electrochem.Soc., Houston 1960The Electrodeposition of Cermets
1961
1033. R.H. Abrams and F.C. Jamerson, J.Appl.Phys. 32, 1783-4(1961): Thermionic Emission of UC-Nb --
1034. A. Accary and R. Lucas, Mem.Sci.Rev.Met. 58, 383-7 (196L):Influence of Heat Treatments on Uranium Monoearbideand U-UC Cermet
1035. V.L. Adams, NP-IO 364 (1961): Defense Metals InformationCenter Seleeted Accessions
1036. G.M. Adamson, R.J. Beaver and J.E. Cunningham, paper: 4.Plansee Seminar, Reutte/Tirol 1961: Radiation PerformanceAnd Fabrication Advances with Aluminum DispersionFuel Elements
1037. J.H. Affleck, AD-262 774, 262 776 (1961): Investigation ofVarious Activator Refractory Substrate Combinations
1038. C. Agte und G. Blum, Neue Hütte 6, 139-46 (1961): Hochtemperatur-Werkstoffe auf Titankarbidbasis
1040. Anon , ,
1041. Anon , ,
1042. Anon . ,
1043. Anon . ,
1044. Anon. ,
1045. Anon , ,
1046. Anon. ,
- 61 -
1039. J.F.R. Ambler and G.F. Slattery, J.Nuel.Mater. 4, 90-9(1961): New Metallographie Techniques for theExamination of Uranium, Uranium Alloys and UraniumDioxideAERE/EMR/PR 108-4/5 (1961): Binary Carbide-MetalSystemsCeramie Age (1961), 39-45: Aluthermißehe Reaktionzur Herstellung von CermetsMater.Design Engng 54, 283-5 (1961): MaterialsSeleetor lssue: Refraetory Cermics and CermetsMetal lnd. 99, 399-400 (1961): MetaleeramiesMetalworking Production 105 (9), 69 (1961): SteelBonded Carbide Whittles. Die CostsOil Gas ~ 59, 109 (May 1961): Process lndustriesGet New Construction Material: Ceramie-Metal CompositeSteel 149, 111 (Dee. 1961): Cermets Stand High Heatin Vaeüüiii
1047. R.W. Bane, TID-7606 (1961), 100-11: Analysis of UraniumOxide Fuel Materials
1048. J. Barta, G. Briggs and J. White, Vortrag: 4.Plansee-Seminar(Reutte/Tirol, 1961): Phase Diagrams of UraniumMonocarbide-Transition Metal Systems. The SystemsUC-Cr, UC-Fe, UC-UFe2 and UC-Ni
1049. I.L. Bartasehev, Cvetnyje Metally (1961), Nr.3, 82-6:Metallkeramische Werkstoffe
1050. M. Beckerman and R.E. Thun, Trans. 8th AVS Vaeuum Symp.(Pergamon, New York, 1961), Vol.g, 881
1051. B.T. Bradbury, Research 14, 423-9 (1961): Uranium OxideFuel of the Future-
1052. D.H. Bradhurst and A.S. Buchanan, Austr.J.Chem. 14, 397-408(1961): Surfaee Properties of Liquid Na and Na-KAlloy in Contact with Metal Oxide Surfaee
1053. D.H. Bradhurst and A.S. Buchanan, Austr.J.Chem. 14, 409(1961): Surfaee Properties of Molten Bismuth-BismuthChloride in Contaet with U02
1054. K.J. Brookes, Metalworking Prod. 105 (5), 65-7 (1961):What is Steel-Bonded Carbide?
1055. R.D. Brown, R.A. Burton and P.M. Ku, ASD-TR-61-301 (1961):Frietion and Wear Characteristics of Cermets atHigh Temperature and High Vacuum
1056. J.J. Byerly, CRFD-971 (1961): The Compatibility of U02with Refraetory Metals1057. J.H. Cherubini, R.J. Beaver and C.F. Leitten jr., ORNL-3077,
1961: Fabrieation Development of U02-Stainless SteelComposite Fuel Plates for Core B of Enrico FERMIFast Breeder Reactor
1058. J. Chvojka, Tech.praee No.ll, 945-52 (1961): Material forHigh and Highest Temperatures. Trends in the Development of Non-Ferrous Metals and Cermets
1059. F.J.P. Clarke and J. Williams,in: J.H. de Boer (ed.),Reaetivity of Solids (Elsevier, Amsterdam, 1961),593-601: Reaetivity Problems Concerning the Formationof Ceramie Materials
1060. G.W. Cunningham, D.W. Kizer and S.J. Paprocki, Proceedings4th Plansee Seminar, Powder Metallurgy in theNuclear Age, F. Benesovsky, (ed.), (Springer-Verlag,Vienna, 1961), 483: Cermet Fuel Elements
- 62 -
1061. J.K. Davidson, W.L. Rabb and O.N. Salmon, U.S. Patent2,961,390 (1961): Method of Preparing Uranium,Thorium 01' Plutonium Oxide in Liquid Bismuth
1062. R.W. Dayton and C.R. Tipton, BMI-1430, 1480, 1489, 1504,1518, 1546, 1557 (1961): Progress Relating toCivilian Applications
1063. H.T. Dowing et ale USA Quart.No.P-60-23 (1961): AdvancedSolid Properties, Cermics and Cermets, NozzleEvaluation Program
1064. K. Dudley and L. Lesensky, Proc.Adv.Electron Tube Techn.(New York, 1961), 128-32: Rare Earth Cermet Cathodes
1065. M. Epner, Metal Treating 12 (1), 12-4, 40 (1961): MartensiticSteel Bonded TiC --
1066. H.R. Erard, PB-155 594 (1961): Relationship of Propertiesof Selected Cemented Carbides with Machining Performance
1067. V.N. Eremenko, Poverch.Javlenia Metal Splav.Akad.Nauk Ukr.RSR (1961), 5-16: Physiochemische Grundlagen beider Formgebung von Cermets
1068. R.C. Eschenbach and R.J. Wickham, WADD-TR-60-439 (1961):Metal-Ceramic Ablative Coatings
1069. F. Forscher, F.M. Cain and B.L. Vondra, IAEA Symposium,Vienna, (May 10-13, 1960), Vol.2, 253 (AcademicPress, 1961): Coated Fuel Particles, Fuel ElementFabrication with Special Emphasis on CladdingMaterials
1070. D.G. Freas and J.H. Saling, BMI-1529 (1961): RadiationStability of Special U02 Dispersed in Stainless Steel
1071. T. Fukatsu, J.Japan Soc. Powder Met. 8, 183-94 (1961):Structure of WC-Co Compositiorls
1072. T. Fukatsu, J.Japan Soo. Powder Met. 8, 247-52 (1961)=Study of Binder Phase of Cemented Chromium Carbidewith Nickel
1073. V.F. Funke, V.I. Tumanov und Z.S. Truchanova, Izv.Akad.Nauk SSSR, Met.Topl. (1961), 101-8: Einfluß derLegierungsbildung auf Struktur und Eigenschaftenvon WC-Co-Hartmetallen
1074. E.S. Funston and J.A. McGurty, Platinum Metals Rev.5. 56(1961): Rare Earth-Palladium Cermets -
1075. E.S. Funston and J.A. McGurty in: Rare Earth Research(Macmillan, N.Y., 1961), 288-96: Rare Earth Metalsin Metallurgy, Ce~~ies and Cermets
1076. L.C. Gaunt, Cutting Tool Eng. 13 (5), 19, 22 (1961): DoesCarbide Impregation Work?
1077. C.G. Goetzel and P. Landler, Planseeber. Pulvermet. 9,758-67 (1961): Refractory Coatings for Tungsten
1078. A. Goldsmith, T.E. Waterman and H.J. Hirschhorn, Handbookof Thermophysical Properties of Solid Materials(~cmil1an Co., New York, 1961), Vol.IV: Cermets,Intermetallics, Polymerics and Composites
1079. J. Gurland in: W. Leszynsky (ed.), Powder Metallurgy(Intersci.Publ., New York, 1961), 661-82: TheInfluence of Basic Design and Processing Variableson the Properties of Sintered WC-Co-Alloys
1080. T. Haase, Keramik (Deutscher Vlg. d. Wissenschaften, Berlin,1961), 355-62: Cermets
- 63 -
1081. G.L. Hanna, Conf.Met.Beryllium, London, 1961 (Prepr.18):The Compatibility of Beryllium with U02 and Th02
1082. Z. Hashin and S. Shtrikman, AD-265 (1961): On Some Variational Principles in Elasticity and their Applicationto the Theory of Two Phase Materials
1083. H.H. Hausner, IAEA-Reviews Nr. 11 (1961): Powder Metal1urgyin Nuclear Reactor Construction
1084. J. Hinnüber, O. Rüdiger and W. Kinna, Powder Met. (1961),Nr. 8, 1-24: An Electron -Microscope and X-RayInvestigation of the Milling of Tungsten CarbideCobalt Mixtures
1085. V.V. Hryhoreva und V.M. Klimenko in: Splavy na OsnoviKarbidu Chanu (Kiew, 1961): Chromkarbid-Hartmetalle
1086. Huffmann, O.K. Skupe, M. Hatch and D.D. Geffries, IDO-16 665 (1961): MTR-ETR Technical Branches. SampIeFuel Plate Irradiation and Testing
1087. J. Huminik and G.G. Bargero, NP-I0 577 (1961): Developmentand Testing of Electrodeposited Cermets
1088. W.B. Jepson and D.W. Aylmore, J.Electrochem.Soc. 108,942-7 (1961): The Formation of Porous Oxides on Metals
1089. A. Kauffmann, B. Loewenstein and J. Hunt, Proc.lnt.Symp.Fuel Elements (Wien, 1961), 325-41: The Fabricationof Clad Massive U02-Fuel Elements by Hot Extrusion
1090. D.L. Keller, Nucleonics 19 (6), 45-8 (1961): PredictingBurnup of Stainless-U02 Cermet
1091. R. Kieffer und F. Benesovsky in: Handbuch der Astronautik(Akad. Verlagsges. Athenaion, Konstanz, 1961),Bds L, 219-34: Werkstoffe für' Raketentriebwerke
1092. A.G. Knapton and K.B.C. West, J.Nucl.Mater. 3, 239-40 (1961):The Compatibi1ity of Beryllium with Uranium Dioxide
1093. J. Kotowski and J. Muschaweck, Vakuum-Technik 10, 141-5(1961): Adhesive Strength of Metal Coatings onCeramics
1094. W.C. Kubrea, C.F. Leitten and I.R. Beaver, ORNL-2988 (1961),283-340
1095. E.Labusoa, N. Labusca und I. Teodorescu, Stud.Cerc.Met.6(1), 102-12 (1961): Einige Anschauungen über denEinfluß des Gefüges auf die Eigenschaften von Hartmetallen
1096. E. Lassner and R. Scharf, Chemist Analyst 50, 69-71 (1961):Determination of Titanium, Niobium and Tantalum inCemented Carbides
1097. A. Latin, Metallurgia 64,211 (1961): The Properties of WC-CoAlloys Used for~ineral Cutting Tool
1098. P.V. Lenel, Vortrag: 4.Plansee-Seminar, Reutte/Tirol, 1961:Dispersed Phases in the Powder Meta11urgy of NuclearMaterials
1099. A.V. Levy, S.R. Locke and H. Leggett, Astronautics 6, 27-9(Aug. 1961): Composite Ceramic-Metal Systems -
1100. B.W. Lewis, AD-258 762 (1961). U.$. Govt.Research Repts.36 (5), 47 (1961): Investigation of the Deteriorationöf 22 Fefractory Materials in Mach 2 Jet at aStagnation Temperature of 38000F
1101. P. Loewenstein, L.R. Aronin and A.L. Geary, Powger Met.(1961), 563-83: Hot Extrusion of Metal Powders
- 64 -
1102. C.D. McKinney, W.B. Tarpley and F.H. Gaskins, NYO-9586(1961): Applications of Ultrasonic Energy: Ultrasonic Casting of Ceramic and Cermet Slips
1103· D.I. Mason and J.D. Bingle, ANL-6333 (1961), 221: ThermalAnalysis of Uranium Oxide-Metal Cermets
1104· P.Mathelot, Bull.Soc.France Ceram. (1961), Nr.53, 43-7:Int~r@t des cermets aux terres rares pour le contrtledes r~acteurs nuc16aires
1105. E. Meckelburg, Metall 15, 776-8 (1961): Metallisch-keramischeMehrschichtenüberzüge für die Raketentechnik
1106. L. Meny, J. Buffet and Ch. Sauve, Proc. 4th Plansee-Seminar,Powder Metallurgy in the Nuclear Age, F. Benesovsky,(ed.),(Springer-Verlag, Vienna, 1961),566: Applicationde frittage-filage de poudres a la fabricationd'elements combustibles dispers~s U-Al et U02-inox
1107. A. Merz, Vortrag: Int.Pulvermet. Tagung, Eisenach 1961:Zur Biege-Bruchfestigkeit spröder Werkstoffe
1108. E. Meyer-Hartwig, U.S. Patent 2,982,014 (1961): Process ofManufacturing Compounds and Metallic Ceramic Compounds
1109. K. Monma and H. Suto, J.Jap.lnst.Met. 25, 65-8, 143-7 (1961):Studies on Cermets (Parts 8 and-g), Thermodynamiesof Surface Tension
1110. K. Monma and H. Suto, Vortrag: AlME, St. Louis (1961):Several Factors Affecting High-Temperature Strengthof Cermets
1111. J.W. Moore and G.M. Ellis, U.S. Patent 3,006,862 (1961):Method of Making Nuclear Fuel Element
1112. D.J. Murphy et al., LA-2563 (1961): Elevated TemperatureImpact flensification of Mo-U02 Powder
1113. P. Murray in: J. Thewlis (ed.), Encyclopaedic Dictionary ofPhysics (Pergamon, Oxford, 1961), 619: Cermets
1114. S. Naka, E. Kato, G. Nishiyama and H. Matumoto, Rep.Goc.Ind.Res.lnst.Nagoya 10, 199-205 (1961): Study onZr02-Ni Cermets --
1115. E. Niki, S. Kohara, M. Tajiri and K. Tatsuzawa, YogyoKyokai Shi 69, 169 (1961): A Study of the Sinteringof Nickel-Bonded TiC
1116. E. Nishibori, R. Ueda, S.Yajima, S. Ichiba, Y. Kamemotoand K. Shiba, Proc. 4th Plansee-Seminar, Reutte/Tirol (Springer, Wien, 1961): Fission Products inSemi-Homogenous Fuels
1117. Nuclear Materials and Equipment Corp., NYO-9187 (196L7:Corrosion and Radiation Damage Resistant Fuel MaterialCoatings of Uranium and Uranium Dioxide Particles
1118. H.J. Oel, Ber.dtsch.keram.Ges. 38, 258-67 (1961): Die Benetzung von Glas-und MetäIlschmelzen an festen metallischen und keramischen Hochtemperaturwerkstoffen
1119. S.J. paprocki, D.L. Keller, G.W. Cunningham and D.E. Kizer,BMI-1504 (1961)
1120. S.J. Paprocki, S.W. Porembka, E.S. Keller and C.B. Boyer,BMI-1555 (1961): Progress on the Use of Gas-PressureBonding for Fabricating Low-Cost Ceramic, Cermetand Dispersion Fuels
1121. S.J. Paprocki, E.S. Hodge and P.J. Gripshover, DMIC-159(1961): Gas-Pressure Bonding
- 65 -
1122. S.J. Paprocki, E.S. Hodge, P.J. Gipshover and D.C. Carmichael,Proc.Int.Symp.Fuel Elements (Wien, 1961), 283-300:Fabrication of a Compartement Flat-Plate CeramicFuel Element
1123· H. Pearlman, J.p. Howe, J.H. Walter and M.H. Binstock, NAASR-Memo 6228 (1961): Radiation Effeets on DispersionFuel Elements. Bibliography
1124. V.V. Pen'kovskii, Poroshkovaya Met. No. 5, 74-9 (Sept. 1961):Action of Neutron Irradiation on Refractory Compoundsand Powder Metals (Review)
1125. W.C. Pritchard, K.A. Johnson, J.A. Leary and W.J. Maraman,LA-2621 (1961): Compaction and Sintering of pu0
2-MoPowder Mixtures1126. S.A. Rabin, H. Inouye and M.M. Martin, Minutes 4th Semi
annual Inf.Meeting on the ORNL Fast Breeder Assist.Progr. (At.Power Devel.Ass. 1961), L 1-12: Development of Uranium-Molybdenum-Base Cermets
1127. C.F. Reinke,ANL-6516 (1961), 141: Annual Report for 1961.Metallurgy Division
1128. S.L. Ruskin, British Patent 881,184 (1961): Improvement inor Relating to Metallo-Ceramic Compositions
1129. I.N. Schaporova und J.A. Schtschetelina, Isv.Akad.Nauk SSR,Met. 1961, Nr. 1: Ein-und Zweiphasengrenzen in denSystemen W-C-Co und W-C-Ni
1130. I.N. Schaporova, E.A. Schtschetelina und 0.1. Serebrova,Metalloved.Term.Obr.Metallov. (1961), Juli, 44-6:Einfluß einer Wärmebehandlung auf die Eigenschaftengesinterter WC-Co-Hartmetalle
1131. W. Schatt, Neue Hütte 6, 644-54 (1961): Schutzschichtenaus Oxyden und Cermets
1132. Z. Sobczyk, Mechanik Warschau 34. 360-1 (1961): CermetsNew Refractory StructuräI Materials and theirApplicat~on
1133. S. Spinner, J.Res.Nat.Bur.Stand. 65 C, 89-91 (1961):Temperature Dependance of Elastic Constants of SomeCermet Specimens
1134. G.E. Spriggs, Powder Met. No. 7, 296-311 (1961): A Preliminary Study of the Reac~ions between Tungsten Carbideand Tungsten Uarbide-6/o Cobalt Powders and Wetand Dry Hydrogen
1135. M. Sugiyama and H. Suzuki, J.Japan Inst.Metals 25,1-4, 4-8,8-11, 167-70 (1961): Heat Treatment of TIC-Ni Cermet
1136. R.W. Swindeman, Minutes 4th Semiannual Meeting ORNL FastBreeder Assist.Progr. (At.Power Developm., 1961),G 1-5: The Mechanical Properties of the U02-Type 347Stainless Steel Cermet proposed for Core B of theFermi Reactor
1137. I. Tangermann, Vortrag: Fut. Pulvermet. Tagung, Eisenach 196~
Neue Hütte 6, 767-71(1961): Untersuchung der Benetzbarkeit in Oxyd-und Karbid-Systemen
1138. D.J. Tate, WADC-TR-53-373 (Suppl.) (1961): A Review of theAir Materials Research and Development Program
1139. G.T. Tsao, Ind.Eng.Chem. 53, 395-7 (1961): Thermal Conductivity of Two-Phase~aterials
1140. V.I. Tumanov, M.L. Baskin und N.R. Anders, Cvetnyje Metal1y(1961), Nr. 12, 68-73: Einige Eigenschaften vonWC-Co-Hartmetallen
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1141. V.I. Tumanov, V.F. Funke und T.A. Novikova, Izv.Akad.NaukSSSR, Met.Topl. (1961), 144-8: Die physikalischenEigenschaften von WC-Co-Hartmetallen
1142. E. Violante jr., Anal.Chem. 33, 1600-2 (1961): PhaseSeparation and Analysis of Sintered TiC-Ni CermetsUsing Alcoholic Bromine
1143. A.J. Wall and D.R. Milner, J.Inst.Metals 90, 394-402(1961/62): Wetting and Spreading Phenomena in a Vacuum
1144. R.C. Wangh, J.E. Cunningham and R.J. Beaver in: J. Belle,Uraniumoxide (USAEC, Naval Reactors, 1961):U308-AI-Reaction
1145. J.H. Warren and S.A.S. Ofner, NP-lI 410 (1961): ProgressReport Nr.3
1146. J.C. Withers, WADD-TR-60-718 (1961): Electoplated CermetCoatings for Oxidation Protection of Substratesin Excess of 20000F
1147. D. Yarnton and D.K. HilI, Engng Mat.Design 4, 439-42 (1961):Glass - Hs Role in Powder ivIetallurgy
1962
1148. R.E. Adams, A.V. Crewe, F.G. Foote et al., ANL-6610,6658 (1962): Reactor Development Program ProgressReport
1149. G. Adamson, R.J. Beaver and J.E. Cunningham in: F. Benesovsky, Pulvermetallurgie in der Atomkerntechnik(Metallwerk Plansee, Reutte/Tirol, 1962), 433-66:Radiation Performance and Fabrication Advances withAluminum Dispersion Fuel Elements
1150. Anon., Engng 194, 18-9 (July 1962): Comments on a Metal/Ceramic Material
1151. Anon., J. Franklin Inst. 273, 264 (1962): Metal-Ceramic,Microminiature Eleetronic Components
1152. Anon., HW-76 300 (1962): Ceramics Research on DevelopmentOperation, Quarterly Report Oct.-Dec. 1962
1153. Anon., Materials in Design Engng 56 (2), 123 (1962):Ceramic, Cermet and Refractory Coatings
1154. W. Arbiter and G. Stern in: F. Benesovsky, Pulvermetallurgie in der Atomkerntechnik(Metal1werk Plansee,Reutte/Tirol, 1962), 467-82: Preparation and Properties of Dispersion Hardened Uranium/Uranium Oxide
1155. W.M. Armstrong, A.C.D. Chaklader and J.F. Clarke, J.Am.Ceram.Soc. 45, 115 (1962): Interface ReactionBetween Metals and Ceramics: Saphire-Nickel-Al1oy
1156. A.Ya. Artamonov, Sov.Powder Met.Metal Ceramics (1962),No.2, 137-41: Problem of Calibrating Porous CermetBearing
1157. N.N. Ault and W.M. Wheildon (Boston, 1962): Modern FlameSprayed Ceramic Coatings
1156. R. Bakish, C.A. GellaI' and I. Marinow, J.Metals 14, 770-4(1962): Vapo~ Phase Metallurgy and Ceramics
1159. E.S. Bartlett, Machine Design 34 (15), 198-204(1962):Protection of Refractory-Metals at High Temperatures
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1160. R.J. Beaver and C.F. Leitten jr., Army Reactors ProgramAnnual Progress Report for Period Ending Oct.31,1962, ORNL-3386, 12, (See also ORNL-2834, April 1962):Fue1 Element Development Studies
1161. R. Bernard und R. Riviere in: Ber.IT. 1nt.Pulvermet.TagungEisenach 1961 (Akademie Verlag, Berlin, 1962) 43-59:Röntgenuntersuchungen der in Wolframkarbid-Kobaltlegierungen vorhandenen Spannungen
1162. J.M. Blocher jr., in: Chemical Vapor Deposition (DM1C Rep.170 (1962), 1-14: The Promise and Problems ofChemical Vapor Depositions
1163. D.W. Brite and K.R. Sump, Quarterly Report, Oct.-Dec.1962,HW-76 300 , p. 2.10, General Electric , HanfordAtomic Products Operation, Ceramics Research andDevelopment Operation: U02 Cermets
1164. R.D. Brown, R.A. Burton and P.M. Ku, Am.30c.Lubr.Eng.Trans. 5, 24-31 (1962): Friction and Wear Characteristics cf Cermets at High Temperature and High Vacuum
1165. C. Capasso, Rassegna Chim. 14 (2), 64-7 (1962): Stoffefür Hochtemperatur-Cermets
1166. D.F. Carroll, Ceramics Research and Development Operation,Quartely Report, Oct.-Dec.1962, HW-76 300, GeneralElectric, Hanford Atomic Products Operations, p. 2.9:Pu0 2-Zr Cermet
1167. H.H. Chandler, General Dynamic Corp.Rep. MR-59-2 (1962):Bonding Ceramic to Metal
1168. Cheg Chih-Chiang, K'o Hsueh Ta Chung (China),No.4, 99-100(1962): The New Era of Porcelain
1169. F.B. Cuff, ASD-TR-62-7 (1962), AD-277 152 (1962): Researchto Determine the Composition of Dispersed Phases inRefractory Metal Alloys
1170. G.W. Cunningham, D.E. Kizer, S.J. Paprocki, in: F. Benesovsky,Pulvermetallurgie in der Atomkerntechnik (Metallwerk Plansee AG, Reutte/Tirol, 1962), 483-505:Cermet Fuel Elements
1171. W. Dawihl und B. Frisch, Ar'ch. Eisenhüttenwesen 33, 61-6(1962): Verformungsmessungen an Hartmetallen im Zusammenhang mit der GeTÜsttheorie
1172. M.L. Dring, AD-294 155 (1962): Ceramic-to-Metal Seal forHigh-Temperatures Thermionic Converters
1173. A.S. Dworkin, H.R. Bronstein and M.A. Breding, J.Phys.Chem. 66, 572-3 (1962): Miscibility of Metals withSalts.~. Lithium-Lithium Halide System
1174. J.E. Edström, U.S. Patent 3,044,867 (1962): Method for theProduction of Metallic-Ceramic Materials
1175. V.N. Eremenko, Z.1. Tolmatscheva und T.J. Velinkanova, Iss1.Zaroprtsch.Spl. 8, 95-102 (1962): Gefüge von TiC-Ni,TiC-Cr und TiC-~~
1176. R. Fabian, Mater.Design Engng 56, 105-7 (1962): PlatedCermet Coatings Fight Heat Wear
1177. S.M. Feinberg, S.T. Konobeevskii, N.A. Dollezhal, J.Y.Eme1yanov, V.A. Tsihanov, I.M. Bulkin, A.D. Zhirnov andA.G. Fillipov, Reactor Science and Technology (J.Nucl.
Energy, Parts A+B) 16, 533- (1962): The 500MW Research Reactor SM 2-rHigh Flux)
1179. J.D. Fleming and J.W. Johnson, T1D-7642 (1962), 649-66:Exothermic Reactions in AI-U308 Composites
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1180. J.D. F1eming, J.W. Johnson, P. Bolud, S.H. Bomar and A.R.Co11ord, TID-17 530 (1962): Materials for HighTemperature Nuc1ear Engineering App1ications
1181. W.C. Francis, G.W. Gibson, M.J. Graber and W.P. Scarrah,IDO-16 827 (1962): MTR-ETR- Technica1 BranchesReactor Fue1s and Materials Deve10pment
1182. W.C. Francis, G.W. Gibson and W.P. Scarrah, TID-7642 (1962),444: Some Results of Uranium A1uminum Irradiationsat the RTR/ETR
1183. T. Fukatsu, Nippon Kinzoku Gakkai Shi 26, 43 (1962):Structure and Properties of Binder Phase of TiC-NiCermets
1184. V.F. Funke, V.I. Tschu1epov und S.I. Judkovsky, Fiz.Meta11oved. 13, 794 (1962): Beziehung zwischenWiderstand und Struktur von WC-Co-Legierungen
1185. H.S. Gadiyar and J. Ba1achandra, Trans.lndian Inst.Met.15,168-76 (1962): Vapor Phase Deposition of Mo1ybdenumon U02 Partic1es Using F1uidized Bed Technique
1186. A. Gatti, Powder Met. (1962), Nr.10, 77-86: Notes on theStabi1ity of Aluminium Oxide in Iron, Nickel andCobalt
1187. C.W. Gibson and N.C. Francis, IDO-16 799 (1962): Annua1Report in Fue1 Element Deve10pment
1188. W.A. G1aeser, E1ectro-Techno1. (Apr.1962): Wear Characteristics in Nonmeta11ic Materials
1189. E. Glenny, Engineering 194, 852 (1962): Cermets: A Hopethat did not Materia1ize
1190. W.V. Goedde1, GA-3109 (1962): Coated Partic1e Fue1s Development at General Atomic
1191. D.E. Gos1ee, Vortrag: 18th Powder Met.Meeting, Philadelphia1962: ~~ Advance in Dispersion Nuclear Fuel Elementsby Powder Meta11urgy
1192. J. Gurland, Jernkont.Ann (1962): Current Views of theStructure and Properties of Cemented Carbides
1193. R.L. Hami1ton and O.R. Crosser, Ind.Eng.Chem.Fund. 1,187-90 (1962): Thermal Conductivity of HeterogeneousTwo Component Systems
1194. L.e. Harrington and G.H. Rowe,CNLM-4234 (1962): ThermalExpansion of 5 Titanium Carbide Cermets from 68 to1800 0 F
1195. M.M. Hendrickson and J.E. Brown, HW-75 914 (1962): Researchand Deve10pment Programs
1196. P. Herscovici, M. Sache1arie and I. Oprica, CercetariMeta1urgice i, 273-97 (1962): Meta110ceramic Filters
1197. T. Heumann und K. Forch, Z.Meta11kde 53,122-30 (1962):Die Ausbreitung flüssiger MetaIIe auf der Oberflächefester Metalle
1198. E.S. Hodge, C.B. Boyer and F.D. Orcutt, Ind.Engng Chem.54 (1), 31-5 (1962): Gas Pressure Bonding (Cermets)
1199. G.R. Horn, W.J. Flaherty and D.W. Brite, Ceramies Researchand Deve10pment Operation, Quarterly Report, Oct.Deo. 1962, HW-76 300, p. 4.4, General E1ectrio,Hanford Atomic Products Operation: High TemperatureIrradiation Testing of U02-Tungsten Cermet
1200. M. Humenik, D.W. Hall and R.L. Van Alsten, Metal Progr. 81(4), 101-8, 132 (1962): Graphite-Base Cermets - a New Material for Bearing, Electrical High-Temperature APp1ications
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1201. V.A. Ivensen und A.E. Kovalski, Fiz.Metallov. Metalloved.13, 793-4 (1962): Abhängigkeit des elektrischenWiderstandes vom Gefüge bei WC-Co-Hartmetallen
1202. F.E. Jamerson, R.F. Hill and F.E. Gifford, AD-290 727 (1962):Investigation on the Direct Conversion of NuclearFission Energy in a Plasma Diode
1203. H. Kalish and F.B. Litton, Materials Research and Standards,2, 638, 1962: Thermal Expansion of Stainless SteelÜ02 Dispersion Type Nuclear Fuel Plates
1204. H.Kato and C.E. Armantrout, U.S. MB U-IOOl (1962), 11-3:Refractory High-Temperature Alloy (Mo-Gd203)
1205. S. Katz, J.Nucl.Mater. 6, 172-81 (1962): High TemperatureReactions between Refractory Uranium Compounds andMetals
1206. D.L. Keller, D.E. Kizer and D.L. Stoltz, BMI-1607 (1962):Fabrication of Cermet Fuel Elements
1207. D.E. Kizer, BMI-1598 (1962), 171: UC Cermets and UN Cermets1208. G.S. Kreimer and N.A. Alexejara, Phys.Met.Metallogr. USSR
13 (4), 117-21 (1962): Mechanism of Fracture inSintered Tungsten-Cobalt Carbides
1209. G.S. Kreimer und O.S. Safanova, Izv.Akand.Nauk SSSR, Met.Topl. (1962), Nr.3, 94-7: Einfluß der Abkühlgeschwindigkeit beim Sintern von WC-Co-Hartmetallen
1210. F.V. Lenel, in: F.Benesovsky, Pulvermetallurgie in der Atomkerntechnik (Metallwerk Plansee, Reutte/Tirol, 1962),529-40: Dispersed Phases in the Powder Metallurgy ofNuclear Materials
1211. W.H. Lenz and P.R. Mundiger, LAMS-2716 (1962): High DensityW-U02 by Activated Sintering
1212. R. Lingaet, G. Rodier and J. Roger, Bull.Soc.Franc.C~ramique (1962), Nr.54, 39-49: Ceramic Coatings by Spraying at High Temperatures
1213. H. Lloyd, AERE-R-4324 (1962): Development of UO?-StainlessSteel Fuel Plates Containing 30-50 v/o Oxide
1214. C.D. McKinney et al., Metal Progr. 82, 184-5 (Sept.1962):Ultr~sonic Casting of CeramiC-and Cermet Slips
1215. W.R. Martin and J.R.Weir, TID-7642 (1962): Mechanical Properties of X8001 Aluminum Cladding and X8001 Al-BaseFuel Dispersion at Elevated Temperatures
1216. H. Matsumoto, S. Ymanchi and G. Nishiyama, Rep.Gov.lnd.Res.Inst.Nagoya 11, 765-74 (1962): Alumina Base Cermets
1217. L. Meny, J. Buffet et eh. Sauvre, in: F. Benesovsky, Pulvermetallurgie in der Atomkerntechnik (Metallwerk Plansee, Reutte/Tirol, 1962), 566-607: Application defrittage-filage de poudres ~ la fabrication d'elementa combustibles dispers~es U-Al et U02-Inox
1218. M. Merlub-Sobel, U.S. Patent 3,067,047 (1962): MolecularCermets and Method of Making them
1219. A. Merz und H. Kotsch, in: Ber. TI. Lrrt . Pulvermet. TagungEisenach 1961 (Akademie-Verlag, Berlin, 1962), 423-30:Untersuchungen an Chromborid-Werkstoffen
1220. A. Merz und J. Uhlmann, in: Ber , II. Ent . Pulvermet. TagungEisenach 1961 (Akademie-Verlag, Berlin, 1962), 431-5,Disk. 450: Uber den Einfluß der Mahlbehandlung aufTechnologie und Eigenschaften von Chromkarbid-Hartmetallen
1221. J. Molinari, CER-2103 (1962): pr~par~tion ~ l'Etat Solide deMoninitrure d'Uranium Massif a Partir des Poudresd'Uranium et des Nitrures Sup~rieurs d'Uranium
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1222. A.J. Murphy, J.Brit.Interplanet Soc. 18, 320-8 (1962): AGeneral Survey of the MaterialS-Problem
1223. E. Niki and T. Kyoya, Bunseki Kagaku 11, 1185-91 (1962):Electrolytie Separation of Metallic Phase in TiC-NiCermets
1224. Y. Nishi, Nippon Kinzoku Gakki Shi 26, 329 (1962): SealesFormed on TiC-Base Cermets a~High Temperatures
1225. A. Nishiyama and R. Ishida, Trans.Soc.Met. 3, 185-190 (196~:Purity of Cobalt Phase in Carbide Hard Metals
1226. Office of Techn. Serv., OTS SB-504 (1962): Cermets - Selective Bibliography
1227. G. Ondracek, Vortrag: Keramische Werkstoffe im Reaktorbau,Baden-Baden 1962: Untersuchungen im Mischsystem U02Mo
1228. F.K. Orcutt, H.H. Krause and C.M. Allen, Wear 5, 345-62(1962): Lubricants for High Temperatures
1229. J.H. Oxley, M.F. Browning, N.D. Veigel and J.M. Blocher,Ind.Eng.Chem., Prod.Res.Dev.l (2), 102-7 (1962):Microminiaturized Fuel Elements by Vapor-DepositionTeehnique
1230. N.M. Parikh, AD-275 369 (1962): Zone Sweeping of CementedTungsten Alloys
1231.L.P. Pepkowitz, B.L. Vondra and F. Shipko, TID-7622 (1962):Development of Protective Metal Coatings for U02 andU-Particles
1232. A.B. Platov, Poroshkovaja Met. (1962), Nr.3, 63-8: Abhängigkeit der Härte von WC-Co-Hartmetallen von derTemperatur
1233. p. Popper (ed.), Special Ceramies (Academic Press, London,1962)
1234. Yu.M. Pozin, 0.1. Pondarenko and V.I. Sishman, Sov.PowderMet.Metal Ceram. (1962), No.3, 201-4: Production ofHigh-Porosity Cermets Parts for Storage Batteries
1235. V.A. Rakovskii, Sov.Powder Met. (1962), No.5, 347-50:Strength of Cermet Alloys
1236. V.S. Rakovskiy, Principles of Physical Powder Metallurgy(Gos.Nauchno-Tekhn.Izd., Moscow, 1962)
1237. D.O. Raleigh, J.Electroehem.Soc. 109, 521-5 (1962): Equilibrium Studies in the Reduction of Thorium Oxideby Aluminum
1238. G. Rassmann und A. Merz, Technik No.l, 17-23; No.2, 74-9(1962): Entwicklungsstand auf dem Gebiete der Hochtemperaturmaterialen
1.239. A.E. Richt and L.P. Schaffer, ORNL-3386 (1962), 12: InterimPost-Irradiation Examination of the SM-2B Fuel Element
1240. J.A.L. Robertson, Trans.Am.Nucl.Soc. 5 (1), 225-6 (1962):High Temperature Properties of-Ceramic Fuels; theirSignificance and~easurement
1241. C. Sari et E. Jonckheere, in. F. Benesovsky, Pulvermetallurgie in der Atomkerntechnik (Metallwerk Planse~,Reutte/Tirol., 1962), 600-7: Recouvrement de part1.cules par m~tallisation sous vide
1242. M.D. Scruggs, Machine Design 34, 192-8 (1962): Metal-CeramicStrength Composites as Engineering Materials
1243. S. Sklarew, S.A.E. J. 70, 80-1 (1962): Reinforced Refractory Ceramic Coatings Developed
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1244. A.K. Smalley, M.C. Brockqay and W.H. Duckworth, BMI-1579(1962): Improved Techniques for Dispersing CoatedFuel Particles (Oxide)
1245. C.N. Spalaris, Trans.Am.Soc. 5 (1), 228-30 (1962): UraniumDioxide-Cladding Interactions
1246. P.F. Stablein, J.Am.Ceram.Soc. 45, 505-6 (1962): Apparatusfor Forming Small Ceramic-Spheres
1247. R.F.M. Thornley, L. Cartz, J.Am.Ceram.Soc. 45, 425-8 (1962):Examination of Ceramic Surfaces. Scanning ElectronMicroscope. (Cermets)
1248. Ke-Seng Tien, Chosun Kwahak-won ~ongo (1962), Nr.l, 8-9:Innere Reibung in WC-Fe (Ni)
1249. M.H. Ti kkanen , B.O. Rosell and O. Wiberg, Powder Met. (1962),Nr.l0, 49-60: Sintering of Metal P9wder CompactsContaining Ceramic Oxide
1250. V.I. Tretjakov, Sinterhartmetalle; Physiko-Chemische Grundlagen der Herstellung, Eigenschaften und Anwendung(Metallurgizdat, Moskau, 1962)
1251. V.I. Tumanov, V.F. Funke and L.I. Belenkaya Zh.Fiz Khim36, 1574-7 (1962): Wettability of Aluminium Oxideand of Carbides by Metals of the Iron Group
1252. N.I. Valujev, Izv.Vysch.utsch.Zaved.Maschinostr. (1962),Nr.6, 124-8: Härtebestimmung an Titan-ChromkarbidCermets bei erhöhten Temperaturen
1253. L.F. Vereschtschagin, V.A. Schapotschkin und L.B. Piropova,Zur.Techn.Fiz. 32, 233-7 (1962): Druckfestigkeitvon WC-Co-Hartmetallen
1254. L.F. Vereschtschagin, E.V. Zubova und V.A. Schapotschkin,Zur.Tec~-!l.Fiz. 32, 230-2 (1962): Elektrischer Widerstand von WC-Co=Rartmetal1en
1255. W.R. Wade and W.S. Slemp, NASA-T~-D-998 (1962): Measurementsof Total Emittance of Several Refractory Oxides,Cermets and Ceramies for Temperatures from 600 to2,000oF
1256. B.E. Walker, G.T. Ewing and R.R. Mil1er, J.Chem.Engng Data7, 595-7 (1962): Specific Heat of Some High Temperature Materials
1257. B.C. Weber, Keram.Z. 14, 454-65 (1962): TIber die Anwendungdes Schlickergießverfahrens bei der Herstellung vonFormkörpern aus Cermets
1258. W.R. Weinberger and T.S. Weissmann, TID-7642 (1962), 376-97:Fabricarion of Composites Plates by Powder Metal1urgy
1259. A.E.S. White and T.S. Blakely, Chem.lnd. (1962), Nr.40,1740-3: The Improvement of Ceramics by Incorporationof Metals
1260. K.T. Wilke, Z.Phys.Chem. 220, 137-43 (1962): Herstellungvon hochschmelzenden Verbindungen durch Aufdampfprozesse
1261. W.D. Wi~nson, Uranium Metallurgy (Interscience PubI., 1962),I and TI
1262. J.C. Withers, Products Fin. 26 (11), 62-8 (1962): E1ectrode-positing Cermets --
1263. N. Yutani and A.L. PickrelI. Metal Progr. 82, 66-71 (Aug.1962): Electrical Discharge Machining of DifficultAlloys
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1264. H.M. Abbott,AD-408 618 (1963): Composite Materials (Bibliography)
1265. R.M. Adams, A. Glassner, A.V. Crewe, F.G. Foote et al.,ANL-6683, 6764 (1963): Reactor Development ProgramProgress Report
1266. S. Amberg, Jernkontoret.Ann. 147, 200-18 (1963): Zur Berechnung der thermischen Spannungen in WC in der Oberfläche von WC-Co-Legierungen
1267. R.V. Ammon, Nukleonik 5 (7) (1963): Untersuchungen an Uranoxiden und UrariKarbid mit der Differential-Thermoanalyse
1268. Anon., GEMP-17A (1963). Oxida~ion liesistant Fuel Element• Mater~als Research
1269. Anon., HW-76 301, 76 302, 76 304 (1963): Cermics Research1270. Anon., Mater. Design Engng 58, 79-126 (Sept. 1963): The
Promise of Composites1271. Anon., Mater. Design Engng 58, 322-4 (Oct.1963): Properties
ofMaterials Refractory Ceramics and Cermets1272. Anon., PWR-2309 (1963): Determination of the Emissivity of
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1274. L.M. A~ininokaya and I.D. Radomysel'skii, Sov.Powder Met.Metal.Ceram (1963), No.6, 487-93: Corrosion of Cermet Construction Materials and Method of ApplyingProtective and Decorative Electroplated and Chemica1 Ooatings
1275. W.M. Armstrong, A.C.D. Chaklader and D.J. Rose, Trans.AIME227, 1109-15 (1963): Interface Reactions betweenMetals and Ceramics
1276. J.F. Bacon and R.D. Veltri, Rev.Sci.Instr. 34, 1264-5(1963): Improved Method of ElectricarContact toCeramics for High Temperature Use
1277. W.E. Bal1ard, Metal Spraying (4th ed., Griffin, London,1963)1278. J. Ballif, W. Friske and R. Gordon, paper: Conf. New Nuclear
Mater.Techn.,Prague 1963 (Ref.CN 16/28): Fabrication of Prototype APM-Clad U02-Fuel Elements
1279. H. Barr and L. Frank, U.S. Patent 3,091,501 (1963): Fissionable Fuel Capsules and Method of Manufacturing them
1280. J.L. Bates, HW-76 304 (1963): Effects of Atmosphere andTemperature During Annealing of W-U02 Cermet
1281. L. Baker, J.D. Bingle, R. WarehaI und C. Barnes, ANL-6800(1963), 390: Aluminum-u308 Thermite Reaction
1282. M.J. Balschin,in: Issl. po Zaroprotsch Spl. 3 (Moskau 1958),AD-418153, 572-83 (1963): Probleme der thermischenStabilität von Cermets
1283. M.L. Baskin, V.I. Tumanov und V.F. Funke, Fiz.Metallov. 16,112-6 (1963): E-Modul von WC-Co-Hartmetal1en
1284. J.R. Baxter, CPD-65 (1963): Non-Linear Stress V$StrainBehaviour of two Types of Cermets
1285. Bendix-Corp., AD-410 101 (1963): Ceramic-to-Metal Seals forThermionic Converters
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1286. F. Benesovsky und R. Kieffer in: Ullmanns Encyclopädie dertechno Chemie (Urban u. Schwarzenberg, München, 1963),Bd. 14, 440-9: Hartmetalle, Cermets
1287. G.C. Benson, P.l. Freman and E. Demsey,J.Am.Ceram.Soc. 46 (1)143 (1963): Calculation ofCoheS1ve and Surface Energiesof Thorium and Uranium Dioxide
1288. J.F. Benzel, Bull.Am.Ceram.Soc. 42, 748-51 (1963): Metallkeramische Klebemittel --
1289. R. Bernard, Jernkontorets Ann. 147 (1), 22-36 (1963): EineStudie über innere Spannungen in Hartmetall-Legie~gen
1290. R.M. Bidwell, H.M. Haydt, C.T. deFreytas and T.D. SouzaSantos, 8th Arm.Congr. of the Associacao Brasileirade Metais: Nota preliminar sobre propriedades eextruras de dispersas U308-Al
1291. P.L. Blum, P. Guinet et H. Vaugoyeau, Compt.Rend. 257,3401 (1963): Systeme u-u02 ---
1292. C. Bondesan, E. Brutto, A. Gioja, G. Perona and R. Sesini,Energia Nucl.lO (10), 536 (1963): Producing Smal1Spheres of UO--by lsostatic Pressing;in: New Nuc1.Mater.lncludi~g Non-Metallic Fuels (IAEA, Wien, 1963)Vol.l, 165-90: A New Process for Producing SmallU02 Sintered Spheres Based on Isostatic Pressing
1293. G. Briggs, J. Guka, J. Barta and J. White, Trans.Brit.Ceram.Soc. 62,221 (1963): Systems of UC, UC 2 and UN withTransition Metals
1294. D.W. Brite, K.R. Sump and L.O. Slind, HW-76 301 (1963),p. 3.~
U02 Cermets1295. R.L. Bullard, R.A. Hasbrouck, P.S. Schlemmer and R.E. Thun,
U.S. Patent 3,308,528 (1963): Fabrication of CermetFilm Resistors to Close Tolerances
1296. A.G. Buyers, J.Am.Ceram.Soc. 46, 244 (1963): Cermic-MetalBonding Stable in Excess of 22480K .
1297. B. ~ech und P. Oliverius, Praskove Met. (1963), Nr.3, 3-30:Quantitative Metallographie von Sinterwerkstoffen(Hartmetall)
1298. J.A. Christinsen, S.L. Daniel, S.O. McPartland, D.W. Brite,K.R. SumPf W.J. Flaherty, G.R. Horn and L.A. Pemba,HW-76 302 (1963): Ceramies Research and Development
1299. C. Cohn, G. Golden, B. Hoglund, W. Loewenstein, G. Rosenberg, D. Sproks and C. Youngdahl, ANL-6656 (1963):Material Resulting from ANL Rocket Study
1300. V.A. Crewe, S. Lawroski, M. Novick, F.G. Focte, B.L. Spinardand R.C. Goetz, ANL-6749, 6808, 6860 (1963/64):Reactor Development Program
1301. G.W. Cunningham and S.J. Paprocki, TID-7642 (1963), 369-75:A New Concept for Aluminum Base Fuel Elements
1302. J.L. Daniel, HW-SA-2863 (1963): High Temperature Reaction inU02-W-Cermets
1303. J.L. Daniel, HW-76 304 (1963): Plutonium Carbide CermetElectron Microscopy
1304. J.T. Davies and E.K. Rideal, Interfacial Phenomena (AcademicPress, New York, 1963)
1305. W. Dawihl und G. Altmeyer, Z.Metallkunde 54, 645-50 (1963):Dehnungsmessungen an Wolframkarbid-Kobalt-Legierungenim Zusammenhang mit der Gerüsttheorie
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1306. W. Dawihl, G. Altmeyer und Manoranjan Kumar Mal, Z.Metal1kunde 54, 66-71 (1963): Das Verformungsverhalten vonWC-Co-Legierungen bei Temperaturen bis 10000C
1307. R.W. Dayton, R.F. Dickerson et al., BMI-1614, 1644, 1655(1963): Progress Relating to Civilian Applications
1308. R.M. DelI and M. Allbutt, AERE-R-4253 (1963): The Nitridesand Sulfides of Uranium,Thorium and Plutonium (AReview of Present Knowledge)
1309. E. Demsey, Phil.Mag. 8, 285 (1963): Bonding in RefractoryHard-Metals -
1310. M.L. Dring, RTD-TDR-63-4109 (1963): Ceramic-to~etal Sealsfor High-Temperature Thermionic Converters
1311. W.H. Duckworth, A.K. Smalley and M.C. Brockway, Bull.Am.Ceram.Soc. 43, 494-7 (1963): Pelletizing ofDisperseNuclear Fue~Elements
1312. V.N. Eremenko, in: The Role of Surface Phenömena in Metal1urgy(Consultants Bur., New York, 1963), 1-8: Physiochemical Basis of the Formation of Cermets
1313. V.N. Eremenko and V.V. Fesenko in: V.N. Eremenko (ed.), TheRole of Surface Phenomena in Metallurgy (ConsultantsBureau, New York, 1963), 117-9: Rate of Infiltrationof TiC with Cu/Ni Alloys
1314. V.N. Eremenko and V.N. Nizenko in: The Role of SurfacePhenomenain Metallurgy (Consultants Bur., New York,1963), 54-8: Effects of Titanium and TiC on theSurface Properties of Ni and Co
1315. V.N. Eremenko and N.D. Lesnik in: The Role of SurfacePhenomena in Metal1urgy (Consu1tants Bur., New York,1963), 102-16: The Kinetics of Infiltration of porousMaterials with Liquid Metals
1316. W.J. F1aherty, G.R. Horn and L.A. Pembar, HW-76 304 (1963):Long-Term Irradiation of Cermet Fue1s
1317. J.D. F1eming and J.W. Johnson, Nuc1eonics 21 (5), 84 (1963):AI-U
308 Exothermic Reactions --1318. J.D. F1eming, J.W. Johnson, P. Bo10nd and S.H. Bomar, TID
18 286, 18 891, 19 057, 20 026 (1963): Materials forTemperature Nuclear Engineering
1319. R.P.H. Fleming, Powder Met. (1963), Nr.12, 179-87: TheEffect of Composition on the Porosity Structure andProperties of Nickel-Tantalum, Nickel+Tantalum Carbideand Ni-Ta-TaC-Alloy
1320. R.H. Forster, J.Austral.Inst.Met. 8, 405-14 (1963): TheEffect of Ca~bon in Cementea Carbides
1321. E.L. Foster jr., paper: ANS Aerospace Nuc1ear Safety NationalTopica1 Meeting, Albuquerque 1963: Re-Entry BurnupEnhancement of Hydrided Zirconium Uranium A110y Fuel
1322. W.C. Francis, G.N. Gibson and M.J. Graber, IDO-16 932 (1963):MTR-ETR-Technica1 Branches Quarter1y Report
1323· W.C. Francis, V.A. Walker and G.W. Gibson, Trans.Am.Nucl.Soc. 6, 373 (1963): High Temperaure IrradiationTesting of Uranium-Aluminum Fue1s for the ATR
1324. E.W. Friedrich, U.S. Patent 3,114,612 (1963): CompositeStructure
1325· H. Frye, J.E. Cunningham,J.I. Federer, D. Heitkamp, J.F.Murdoch, T.S. Lundy and W.K. Bi ermann , ORNL-3470(1963): Metals and Ceramies Annual Progress Report
- 75 -
1326. M.S. Gadiyar and J.J. Ba1achandra, Ind.J.Techno1. 1, 162-4(1963): Sintering Studies on Mo1ybdenum-Coated U02Partiales
1327. L.E. Gatzek, Machine Design 35 (18), 136-9 (1963): WearResistant Finishes ano-Coatings
1328. C.G. Goetzel, Treatise on Powder Meta11urgy IV (IntersciencePubI., New York, 1963): C1assified and Annotated Bib1iography 1950-1960.Pt.1, Literature SurveY.~32-7: Cermets and Intermetallics ;y.44-6: Sintering in Multiple ComponentSystems;y.418-45: Cemented Carbidesand other HardCompounds;n471-515: Cermets, Meta1-Ceramics andIntermetallicsPt.2, Patent Survey.p.1145-67: Other Compounds (Oxidebase Cermets)
1329. E. Goodman, R.A. Thomson and H.P. Weinberg, AD-407 973(1963): Research and Deve10pment on E1ectrodeposited Coatings for liigh-Temperature ExperimentalSolid Propellant Rocket Nozz1e
1330. P.M. Goodwin, paper: ASME Conf., New York 1963 (Ref. 63MD-20): Composite Materials
1331. D.E. Gos1ee, Nuc1eonics 21 (7), 48-52 (1963): ImprovingPerformance of Stain1ess Stee1-U02 Cermet Fue1s
1332. J. Graham, J.H. Weymouth and L.S. Wi11iams, J.Austra1.Met.8, 280-97 (1963): Fundamental and Techno1ogica1Aspects of Infi1trated Oxide Cermets
1333. D.E. Gücer and J. Gurland, Jernkontoret.Ann. 147 (1), 111-5(1963): An App1ication of Fracture Statistics tothe Microstructure of Cemented Carbides
1334. J. Gurland, Jernkontoret.Ann. 147, 4-21 (1963): Cux'rent Viewsof the Structure and Properties of Cemented Carbides
1335. J. Gurland, Trans.Met.Soc.AIME 227, 1146-56 (1963): TheFracture Strength of Sintered Tungsten Carbide-CobaltA110ys in Relation to Composition and Partic1eSpacing
1336. W.B. Ha11amd J.W. Graham, in: High Temperature Materials rr(Intersci. PubI., New York. 1963), 789-99: CeramicCoatings for Co1umbium
1337. G.L. Ranna, AAEC/TM 212 (1963): The Irradiation Behaviourof Berry1ium Oxide Based Dispersion Fue1s-A Literature Review
1338. L.C.
1339. L.C.
1341. V.E.
1342. V.A.
Harrington and G.H. Rowe, Am.Soc.Testing Mater.Proc.63. 630-2; 633-45 (1963): Thermal Expansion of FiveTitanium Carbide Cermets from 63 to lS00oF; ThermalExpasion of Thirteen Tungsten Carbide Cermets from63 to 18000F
Harrington and G.H. Rowe, CNLM-4479 (1963): ThermalExpansion of Thirteen Tungsten Carbide Cermets
Inman and H.R. Tipler, Met.Reviews 8, 105-66 (1963):Interfacia1 Energy and Composition-Meta1s and A110ys
Ivanov, V.F. Zelenskij, S.I. Fajfer, S.M. Zdanov, V.I.Maksimenko and V.I. Savcenko, in: New Nuc1ear MaterialsInc1uding Non-Metallic Fue1s (IAEA, Wien, 1963),Vo1.2143-54: Uranium Based Cermet A110ys
Ivensen, Poroschkovaja Met. (1963), Nr.3, 37-51: Einfluß der Herstellungsbedingungen auf die Eig~nschaf
ten von WC-Co-Hartmeta11en
- 76 -
1343. L. Jakeszowa and D. Jakes, At.Energy Rev.1 (3), 3-46 (1963):Carbides, Nitrides and Si1icides of Uranium as Promissing Nuc1ear Fue1
1344. Jurid-Werke GmbH, Frebh Patent 1,328,260 (1963): Processfor Making Cermets and Artic1es Made Thereof
1345. H. Kajihara, N. Nakajama, S. Sakai, K. Yamada and I. Mori,Nagoya Kogyo Gijutsu Shikensho Hokuku 12 (1), 1-6(1963): U1tra-High-Speed Cutting by Cermet Too1
1346. J.M. Ke1b1e and J.E. Bernados, Aerospace Engng 22 (1), 56-75(1963): High-Temperaure Nonmeta11ic Materials
1347. D.L. Keller, BMI-X-10 041 (1963): Deve10pment of UraniumMononitride
1348. D.L. Keller, G.W. Cunningham, W.E. Murr, E.O. Fromm and D.E.Lozier, BMI-1608 (1963): High Temperature IrradiationTest of U02 Cermet Fue1s
1349. C.R. Ki1gore, Prod.Finishing 27 (8),34-40 (1963): EngineeredComposite Coatings --
1350. I.P. Kis1jakov, L.V. Beilina und A.N. Kuzin, Izv.Vysch.Utsch.Zaved.Cvet.Met. 6 (1), 117-29 (1963): Benetzungvon WC ttnd TiC durch geschmolzenes Kupfer
1351. R.S. Xiwak, Vortrag: Electrochem.Soc., New Yoek, 1963:Meta1 to Ceramic Seals for Thermionic Converters
1352. D.E. Kizer, Reactor Metr. ~ (4), 21 (1963/64): Cermet Fuels1353. R.F. Klein et al., HW-78 118 (1963): Quarterly Progress
Report1354. o. Knotek, Werkstattstechnik 53, 8-11 (1963): Der Aufbau
der Sinterhartmetalle --1355. S.T. Konobevsky, N.F. Pravdyuk, S.M. Astrakhantsev, V.I.
Xarpukhin, V.V. Skvortsov and V.A. Nikoajenko, Vortrag: Conf.New Nuc1ear Mat.Techn., Prag 1963 (Ret.CN 16/70); NP-13 108 (1963): lnvestigation of CertainProcesses in U02 Dispersed in a Matrix
1356. L.M. Kouba, Wang-Shin-Hua and E.I. Sikotkina, Dok1.Akad.Nauk SSSR 148, 113 (1963): Reaktion von U02 mitV und Nb
1357. W.C. Kramer and C.H. Bean, ANL-6649 (1963): Fabrication ofU02-Stain1ess Steel Dispersion Fue1
1358. W.J. Kucera, C.F. Leitten and R.J. Beaver, ORNL-3458 (1963):Specification and Procedures Used in ManufacturingU~OA-Al Dispersion Fue1 Elements for Corel of thePtterto Rico Research Reactor
1359. M. Kumazawa and J. Gurland, Vortrag: Met.Soc.AIME (Cleveland1963): Particle Coalescence Durtng Liquid-PhaseSintering of WC-Co Alloys
1360. J.D.B. Lambert, Trans.Brit.Ceram.Soc. 62, 247 (1963):Irradiation Stabi1ity of Dispersion Fuels
1361. R.E. Latta and C.C. Brown, Vortrag: Am.Chem.Soc., New York1963: The Preparation and Properties of ParticulateOxide Fuels
1362. A.A. Lebedev, Sov.Powder Met.Metal Ceram. (1963), No.5,401-3: Method of Testing Cermets under Complex Stress
1363. W.H. Lenz, LAMS-2906 (1963): A Brittleness Test for PowderMetallurgy Materials
1364. W.H. Lenz and P.R. Mündinger, J.Less-Common Metals 5, 101-11(1963): High Density W-UO~ by Activated Sintering
- 77 -
-1365. K. Lewenstein and B. Paszkowski, Prace Przeurys1owego lnst.
Elektron 4, 263-70 (1963): Thorium Oxide CermetCathode -
1366. H. L1oyd,lAEA Conf. of New Nuc1ear Materials lnc1uding NonMetallic Fue1s, Prague 1963, Vo1.2, 103-42: Development of U02-Stain1ess Stee1 Fue1 P1ates Containing30-50 v/o oxide
1367. W. Lubars, H.R. C1auser, J.E. Hauck, R.J. Fabian, D. Pecknerand J.B. Campbell, Mater. Design Engn 58 (3), 79-126(1963): Promise of Composites (M/DE Special ReportNo.2l0)
1368. L.L. Maas and P.L. Hofmann, HW-78 756 (1963): Nuc1earParameters Survey for Some Compact, Fast Spectrum,Cermet Reactors
1369. H. Matsumoto, S. Yamaguchi and G. Nishiyama, Rep.Gov.lnd. ResInst.Nagoya 12, 55-62,218-24 (1963): Alumina BaseCermets -
1370. W.A. Maxwell, U.S. Patent 3,109,797 (1963): Tabular FuelElements and Fabricating Techniques Therefor
1371. Menahem Merlub-Sobel, U.S. Patent 3,102,848 (1963): Nuc1earFue1 Composition and Method of Making the Same
1372. W.R. Micks, U.S. Patent 3,098,723 (1963): Nove1 Structura1Composite Material
1373. C.E. Moeller and J.B. Loser, Machine Design 35 (25), 196-203(1963): lnsulating Materials -
1374. E. Niki und K. Masato, J.Japan lnst.Met. 27, 588-92 (1963):Mechanical and Physical Properties-of Extruded TiCNi Cermets
1375. H.J. Oel, Ber.dtsch.keram.Ges.40, 73-83 (1963): KermischeWerkstoffe für Brutstoffe, Moderatoren, Reflektoren,Regelstäbe, Abschirmmaterial und Konstruktionselemente sowie thermoelektrische Stromerzeugung
1376. Office Techn.Service, SB-526 (1963): Bibliography on MetalComposites
1377. S.J. Paprocki and G.W. Cunningham, U.S. Patent 3,074,153(1963): Ductile Chrome
1378. T. Peart and S. Schneider, Electronics 36, 44-5 (Aug.1963):Experts Evaluate Nonwirewound Po~
1379. G.I. Pogodin-Alexejev and K.F. Schtochelov, Liteinoje Proj.(1963), No.8, 26-7: Manufacture of Cermet Bodies byVibratory Compaction
1380. V.A. Presnov in: The Ro1e of Surface Phenomena in Meta11urgy(Consultants Bur., New York, 1963), 92-5: Physiochemica1 Nature of Bonds Between Dissimi1ar Materials
1381. W.C. Pr~hard, K.A. Johnson and J.A. Leary, LA-2828 (1963),Conf. on New Nuc1ear Materials Inc1uding Non-MetallicFuels (Prague, 1963)p.155: Compatibility of the MajorElementa1 Components of Type-302-B Stain1ess Steelwith Pu0 2 and U02
13820 S.Ro Rabins, M.M. Martin, A.L. Lotts and J.p. Hamruond,ORNL-3437 (1963): Dispersion Fuels U-MO-U02,U-Mo-UC
1383. J.G. Rasmussen, M. Yamazaki, N.J. Grant, NASA NsG 117-61(1963): Progress Report on Cermets
1384. R.A. Reeder and R.A. Long, Am.Ceram.So~.Bul1. 42, 337 (1963):Cermic Adhesive Bonding of Refractory Metals
1385. C.F. Reinke, ANL-6665, 6677 (1963): Metallurgy Div.AnnualReport 1962
- 78 -
1386. K.N. Repenko, N.V. Hulko und I.A. Hetman, Ognenpory (1963),Nr.l, 42-5: Reaktion zwischen metallischem Titan undZr0 2-Tiegeln
1387. H.E. Röllig, Kernenergie 6, 685-91 (1963): Kinetik der U02Al-Reaktion in Pulvermischkörpern1388. R. Ruh, J.Am.Ceram.Soc. 46, 301-7 (1963): Reaction of Zir
conia and Titanium-at Elevated Temperatures1389. R. Ruh and W.C. Simmons, Vortrag: Am.Ceram.Soc., Pittsburgh
1963: Metallographic Studies in the.System Zr0 2-Zr1390. M.J. Sanderson, L.N. Grossman, H.W. HilI and A.I. Kaznoff,
Joint IEEE, AIAA, Thermionic Conversion SpecialistsConference, Gatlinburg, Tenn., (1963) p.275~ Compatibility of Nuclear Fuel and Thermionic EmitterMaterials
1391. N.S. Savannah, ORNL-3416 (1963): Maritime Reactor Program1392. W. Schatt, in: F. Eisenkolb und F. Thümmler, Fortschritte der
Pulvermetallurgie (Akademie-Vlg., Berlin, 1963),Vol.2, 641-711 : Metalloxid-Metall-Verbundwerkstoffe(Oxid-Cermets)
1393. H. Scheibe, TID-7654 (1963): Cermic Matrix Fuels ContainingCoated Particles
1394. K.S. Schlyjakova, Met. Metalloved.Fiz.Chim.Metody Issl. (196~
Nr.12, 118-20: Pulverspritzen von Keramiken1395. F. Schmitz and R. Lindner, Radiochim.Acta 2, 218-20 (1963):
Diffusion of Pu in U02 -1396. R.C. Shank, IDO-14 636 (1963): Annual Report of Division
Analytical Branch1397. R.E. Skavdahl, HW-76 301 (1963): Ceramics Research and
Development Operation1398. R.E. Smith, Mater.Design Engng 58 (6), 85-7 (1963): Ceramic
Coated Metals Resist Hea~Corrosion
1399. J.K. SparrelI, K.G. Coumou and J.D. Plunkett, AD-421886(1963): Thermal Conductance of High-TemperatureMaterials (Cermets)
1400. R.F. Stoops and H.J. Mione, NCSC-2981-4 (1963): A NuclearFuel Consisting of Very Small, Uniformly DispersedUC-Particles in a Uranium Matrix
1401. J. Strobl, Pokroky Praskove Met. (1963), Nr.4, 56-61: Herstellung von Verbundkörpern durch Sintern
1402. A.G. Thomas, J.B. Huffadine and N.C. Moore, Met.Rev. 8,461-88 (1963): Preparation,Properties and Appllcationof Metal/Ceramic Mixtures
1403. F. Thümmle~ in F. Eisenkolb und F. Thümmler (eds.), Fortschritte der Pulvermetallurgie, Vol.l (Akademie-Vlg.,Berlin, 1963), 329-452: Wissenschaftliche Grundlagender Sintervorgänge, C. Systeme mit mehreren Komponenten
1404. M.H. Tikkanen, Jernkontoret.Ann. 147, 22-37 (1963): ZurTheorie der Benetzbarkeit zwischen Metallverbindungenund flüssigen Metallen
1405. G.N. Tretjatschenko, Poroschkova Met. (1963), Nr.l, 26-32:Einfluß der Belastungs- auf die Festigkeitscharakteristik von Cermets
1406. V.I. Tumanov, V.F. Funke, Z.I. Pavlova, T.A. Novikova undK.A. Bystrova, Fiz.Metallov Metalloved.14, 285 (1963):struktur von WC-Co-und WC-TiC-Co-Hartmetallen undderen Druckfestigkeitsgrenzen
- 79 -
1407. V.I. Tumanov, Z.S. Truchanova, V.F. Funke und V.G. Schtscherbakova, Zavod.Labor (1963), Nr.3, 277-80: Elektrochemische Separation und Bindungsart der Karbidphasein WC-Co-Legierungen
1408. Uni ted Kingdom Atomic Energy Authority, French Patent1,321,788 (1963): Manufacture of Ceramic MaterialMixed with a Metal
1409. J.I. Venard and R.W. Swindeman, ORNL-TM-665 (1963): Mechanical Properties of the U02-Type 347 Stainless SteelCermet for Core B of the Fermi Reactor
1410. A.S. Vlasov and D.N. Polubojarinov, Ogncupory 28' (5), 232(1963); Ceramics 14 (174), 34-6 (1963):~erstellungvon Cr-Al 0 Cermets durch exotherme Reaktion;Tr.Mosk. cih~.Technol. Lne t . (1963), Nr.41, 185-93:Einfluß von Temperatur und Gas auf die Sinterung vonCr-A1203 Cermets
1411. B.C. Weber, Interceram. (1963). Nr.l, 25-32 (Transl.):Application of the Slip Casting Process for the Forming of Cermets
1412. K. Weigel und W. Track, Metall 17, 433-6 (1963): Das Tränkenporöser keramischer Körper mit Metallen
1413. N.A. Weil and I.M. Daniel, J.Am.Ceram.Soc. 47, 268-73 (1963):Analysis of Fracture Probabilities in-NonuniformlyStressed Brittle Materials
1414. W.M. Wheildon, Bull.Am.Ceram.Soc. 42, 308-11 (1963): Abriebfeste keramische Werkzeuge in der keramischen Fertigung
1415. C.D. Wiseman, R.N. Duncan, J.W. Linga, J.W. Felter and M.E.Shyder, Am.Soc.Met.~rans.Quart. 56, 717-27 (1963):Mechanical Properties of PotentiaI Nuclear ReactorAluminum Cermet Material
1416. R.W. Yancey, Am.Soc.Met.Techn.Rep.No.20-7 (1963): Meta11urgical Characteristics of Chromium-Ceramic Composites
1417. F. Zimmer, Metal.Progress 83 (1), 101-4, 147-8 (1963): NeueWege zur Verbindung-Verschiedenartiger Werkstoffe
1418. G.M. Adamson and J.W. McWerther, ORNL-TM-902 (1964):Specifications forHigh Flux Isotope Reactor FuelElements
1419. I. Amato, R. Colombo et A.M. Protti, Vortrag: Journ€esd'automne Soc.Met.Francaise, Paris 1964: Cermetsbioxyde d'uranium-tungstene obtenus par frittageactiv~
1420. I. Amato, R. Colombo et A.M. Protti, Mem.Sci.~t. 61, 481-3(1964): Quel~ues propri~t€s des cermets U02-Mo
1421. Anon., AD-409 015 (1964): BaO-W-U02, Performance as NuclearThermionic Emitter
1422. Anon., Fundamental Nucl.Energy Research USAEC (1964), 99:Fuels and Materials
1423. Anon., GA-4874 (1964): W-U02-Thermionic Properties1424. Anon., GEAD-4319 (1964): Reactions of Uranium Dioxide with
Tungsten at 20000C
- 80 -
Anon. ,Anon , ,
Anon . ,
1427.1428.1429.
1425. Anon., GEMP-41A,-265,-334A (1964): High Temperature MaterialsProgram Progress Report
1426. Anon., GEST-2017,-2033,-2036,-2045,-2046 (1964): Researchand Development Program of Thermionic Conversion ofHeat to Electricity
Anon., HW-76 302,-76 303,-79 280 (1964): Ceramies Researchan<1 lJeveopmen"tAnon., IDO-17 081 (1964), 1-47: Reactor EngineeringAnon., Mater.Design Engng 60,333-5 (Oct.1964): Properties
of Materials: Refractory Ceramies and CermetsMND-2945-4 (1964): Thermionic Double-Diode ProgramNAA-SR-9999 (1964): Annual Technical Progress ReportNMI-4996,-4997,-4998,-4999 (1964): 14th MetallographieGroup Meeting
1433. G. Arthur and J.A. Cou1son, J.Nucl.Mater. 13, 242-53 (1964):Physica1 Properties of U02-StainlessSteel Cermets
1434. V.I. Avdasev, V.D. Lemeshonok and N.I. Kovzel, Sov.PowderMet.Metal Ceram. (1964). No.3. 226-31: Broaching ofPorous Cermets
1430.1431.1432.
1435. L. Baker and J.D. Bingle, ANL-6900 (1964), 298: AluminumU308 Thermite Reaction
1436. A.I. Baranov in: S.I. Baschkirov (ed.), Hard Metals Production Technology and Research in SSSR (Pergamon Press,London, 1964), 149-56: Dynamic Strength of WC-CoCermets at High Temperatures
1437. S.I. Baschkirov (ed.), Hard Metals Pro duc ti on Techno1ogyand Research in SSSR (Pergamon Press, London, 1964)
1438. R.J. Beaver and G.M. Adamson, ORNL-3670 (1964): Army ReactorsProgram
1439. R. Bernard. R. Riviere und Mai Xuan. Vortrag: Gemeinschaftssitzung über Pulvermetallurgie (Paris, 1964): Röntgenographische Eigenspannungsuntersuchungen an Wolframkarbid-Kobalt-Hartmetall1egierungen und Abhängigkeitder Spannungen von der Temperatur
1440. W. Bernhardt, Tonind.Z.Keram.Rundschau 88 (17/18), 418 (1964):Surface Energy and Wetting of Meta1 Melts on Refractory Oxides
1441. R.M. Bidwe11, H.M. Haydt, C.T. de Frey tas and T.D. de SouzaSantos, ABM (Bol.Assoc.Brasil.Metals) 20, 567-76(1964): Preliminary Remarks on Properties andStructures of Powder Dispersions of U308-Al
1442. J.T. Bilton, Vortrag: Refractory Composites Working Group,1964: Refractory Composite and Coating Work Conductedat IITRI
1443. R.F. Boyle, W.V. Ketron, R.C. Nelson and R.E. Smith,Nucleonics 22, 76 (April 1964): Autoradiography: AUseful Tool for Examining Irradiated U02
1444. F.N. Breslich and L.M. Stejskal, AD-607 078 (1964): Impregnated Porous Refractory Oxide Composites
1445. M.G. Briton, AD-461 995 (1964), No.20: A Status Report onCeramic Techno1ogy
1446. G.A. Bugajev,in: Electric Contacts (Izd.Energiya, Moscow,1964), 270-5: The Possibility of Using Cermets toReplace Tungsten
1447. J. Bugl and D.L. Keller, Nucleonics 22 (9),66-70 (1964):Uranium Mononitride Reactor Fuel
- 81 -
1448. L.G. Carpenter, Brit.J.Appl.Phys. 15, 371-82 (1964): Materials at High Temperatures --
1449. I.N. Chaporova, V.I. Tretjakov, E.A. Shchetlina and T.G.Maharenko, in: S.I. Baschkirov (ed.), Hard MetalsProduction Technology and Research in SSSR (PergamonPress, London, 1964), 165-78: Solubility of TungstenCarbide in Cobalt and Nickel
1450. J.F.G. Conde, Ispra Symposium on Electron Microprobe Analysi~Oct.1963, EUR 1819.e (1964),p.l05: The Applicationon X-Ray Projection Microscopy to the Quality Controland Inspection of Coated Particle Fuels for theDragon Reactor Experiment
1451. L.H. Cope, Metallurgia 70, 59-63 (1964): A Coining Techniquefor the Fabrication of Medium-Volume Cermet NuclearFuels
1452. L.H. Cope and R.J. Warner, BP-969 975 (1964): ImprovementsRelating to the Manufacture of Cermet Nuclear Fuelsand Fue1 Elements Containing such Fuel
1453. J. Corteville et L. Pons, Comp.Rend. 258, 2058-61 (1964):Preuve de l'existence d'une structure continue decarbure de tungstene dans les composees de carburede tungstene fritt~s avec un liant de cobalt
1454· A.V. Crewe et al., ANL-6923 (1964), 87: Progress Report1455. J.E. Cunningham and J.W. Ullmann, ORNL-P-2355 (1964); CONF
660336-1: Cladding and Dispersion Fuel Developmenta t ORNL
1456. W. Dames, K. Wright and J. Williams, U.S. Patent 3,117,914(1964): Nuclear Fuel Materials
1457. W. Dawihl und B. Frisch, Cobalt 22, 16-23 (1964): Zur Kenntnis der mechanischen Eigenschaften der Kobaltphasein WC-Co-Hartmetallen
1458. R.W. Dayton, R.F. Dickerson et al., BMI-1659, BMI-1661,BMI-1694 (1964): Progress Relating to CivilianApplications
1459. A.V. Dean, Appl.Mater.Res. 3 (4), 195-202 (1964): The Development of Composite Materials
1460. D. Delic and M. Ristic, Technika 19, 130-3, 133-6 (1964):Cermets aus dem System AI-Gr203; 930-3: Herstellungvon A1-Cr203-Cermets
1461. W.H. Dennis, Refract.J. 40 (5), 216-8 (1964): Cermets1462. J.M. Dickinson an<\T.J •. Ready, LAMS-3065 (1964): Feasibility
Study of Coextrusion of Refractory Meta1 C1ad Reactor Fuel Elements
1463. M. D'lcughy and J. Houdek, Pokroky Prask Met •.(l964~, No s L,33-40: Nonuniformity of Physica1 and Mechanlca1 properties in the Cross Section of Bits from Cermets
1464. Z.P. Dorf, S.G. Napara-Volgina and M.I. Litovchenko, Sov.Powde~Met.Metal Ceram. (1964), No.2, 164-9: Deter~nation of the Range of Parts for the Cermet Shop ofa Powder Meta11al1urgy Plant
1465. J. Drott, Proc.Europ.Reg.Conf.E1ectron Microscopy, Prague,1964, 159-60 (CA 62, 11 480): Observations of anIntermetallic Layer in WC-Co-Al1oys
1466. K. Drumheller, HW-SA-3754 (1964): Utilization of PneumaticImpaction for Material Fabrication and Development
1467. L.J. Ebert,paper: Am.Soc.Met., Philadelphia 1964: MechanicalBehaviour of Interfaces
- 82 -
1468. P. Elkins, NAA-SR-7502 (1964): Compatibility of UraniumCarbide Fuels with Cladding Materials
1469. J.L. Evans, BP-975 213 (1964): Improvement Relating to theBonding of Metal Cladding to a Cermet Body
1470. H.E. Exner, Diss.Montanistische Hochschule Leoben 1964;.TSrnkont.Lab.f.Pulvermet. stockholm JK U8, 64-201(1964)6 Struktur und Eigenschaften der Hartlegierung
-WO-lO /0 Co, ihre Wechselwirkungen und ihre Abhängigkeit von den Ausgangspulvern
1471. G.R. Faulkner and L.S. Williams, Planseeber.Pulvermet. 12,111-8 (1964): Joining of Oxide to Metals Trough Intermetallic Compounds
1472. A.D. Feith, GE-TM-64-10-4 (1964): Therm~l Conductivity cfSeveral Ceramic Material to 2500 C
1473. J.D. Fleming, J.W. Johnson and S.H. Bomar, TID-21 311 (1964):Reactions in Al-34w/o U
308 Dispersions (Final Repert)1474. H. Franssen,in:Landoldt-Börnstein~, 133-44 (1964): Eigen
schaften von Mischkörpern aus Metallen und niahtmeta11ischen Stoffen (Cermets)
1475. J.H. Frye and J.E. Cunningham (eds.), ORNL-3670 (1964):Metal and Ceramics Division Annual Progress Report
1476. W.C. Funk and R.C. Landinham, CONF-373-3, AGN-TP-52 (1964):Ceramic Extrusion
1477. A. Gatti, U.S. Patent 3,158,473 (1964): Method for ProducingComposite Bodies
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1479. E. Gebhardt, G. Ondracek, J.Nucl.Mater.12, 113-4 (1964):Untersuchungen im 8ystem UO -Mo;-r3, 210-9 (1964):Herstellung von u02-Festkör~ern; 13, 220-8 (1964):Aufbau des Systems U02-Mo
1480. E. Gebhardt, G. Ondracek und F. ThÜffim1er, J.Nucl.Mater. 13,229-41 (1964): Eigenschaften von U02-Mo-Formkörpern
1481. G.W. Gibson, IDO-16 994 (1964): MTR-ETR Technica1 BranchesQuarterly Report
1482. M.J. Graber, IDO-17 052 (1964), 8: Nuc1ear Techno10gyBranches Quarter1y Report
1483. M.J. Graber, G.W. Gibson, V.A. Walker and W.C. Francis,IDO-16 958,-17 037 (1964): Results of ATR Sampie FuelPlate Irradiation Experiment
1484. C.L. Griffis, N.C. Nahas and J.R. Couper, Univ.Arkansas,E~gng Experiment Station Res.Report No.5 (Fayettevllle, Arkansas, 1964): Thermal Conductivity: ASurvey and Critica1 Evaluation of the Literature
1485. G.R. Hall, Trans.lnst.Chem.Engrs.41, 336-41 (1964): TheElectrolytic Dissolution or-Nuclear Fuel Elements
1486. R.F. HilI and F.E. Gifford, Trans.Am.Nucl.Soc. 7, 102-3(1964): Materials Study of a Barium Oxide UO -wCermet Nuclear Thermionic Emitter; Report of2Thermionic Conversion Specialist Conf.,279-86 (1964):The Development of Ba-U Emi-tter Materials
1487. P. Himmelstein, H. Kroll, B. Liebmann and L. Schäfer,EUFAEC-I066,-1108 (1964): Development of Processfor Fabrication of Uranium Carbides and Cermets onUC Basis
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1488. D.O. Hobson, R.L. Heestand and C.F. Leitten, ORNL-3644(1964): U308-Al Composite Fuel
1489. E.S. Hodge, Powder Met. 7, 168-20 (1964): Elevated-Temperature Compaction cf Metals and Ceramics by GasPressures
1490. C.L. Holmes and D.C. Kinsey, QPR-ll; AD-601 867 (1964):Production Engineering Measure for Subminiature,Transistor Type, Potentiometers
1491. J.E. van Hoomissen and A.I. Kaznoff, Trans.Am.Nucl.Soc. 1,376 (1964): Compatibility of UO?-W ThermionicEmitters in Ex-Reactor Converter Environment
1492. F.J. Huegel and C.H.Li, U.S. Patent 3,137,927 (1964):Dispersion Hardened Materials
1493. J.B. Huffadine and A.G. Thomas, Powder Met. 7 (14), 290-9(1964): Flame Spraying as a Method of-FabricatingDense Bodies of Alumina
1494. J. Hunt and P. Loewenstein, Bull.Am.Ceram.Soc. 43, 562-5(1964): Hot Extrusion of U02 Fuel Elements
1495. V.A. Ivensen, O.N. Eiduk und L.C. Pivovarov, PoroschkovajaMet. (1964), Nr.4, 43-57: Einige Erscheinungen beimVerformen von WC-Co-Hartmetallen
1496. Jurid-Werke GmbH, BP-964 064 (1964): Process for the Production of Shaped Metal/Ceramic. Articles
1497. A.I. Kaznoff, M.J. Sanderson and J.E. van Hoomissen, Trans.Am.Nucl.Soc. 7, 100-1 (1964): Interaction andDiffusion in the U02/W System
1498. M.R. Keegan, ceramKs Research and Development Operation,(1964), HW-8l 600, p.2.l2, General Electric, HanfordAtomic Products Operation: Diametral-Tension Testingof Tungsten-U02 Cermets
1499. D.L. Keller, BMI-X-I0 073,-10 083 (1964): Development ofUranium Mononitride
1500. D.E. Kizer, Nucleonics 22 (6), 71 (1964): Improved CermetProperties --
1501. W.H. Kohl, Vacuum 14,333-54 (1964): Ceramics and Ceramic-toMetal Sealing
1502. W.J. Kramers und J.R. Smith, Nature 202,39-41 (1964): Chemische Umsetzung von Oxiden mit Metallen bei hohenTemperaturen
1503. J. Kraus und Gosmanova, Pokroky Praskove Met. (1964), Nr.3,26-9: Elektrolytisches Polieren von WC-Co-Hartmetallen
1504. G.S. Kreimer, V.I. Tumanov, D.S. Kamenskaja und Z.I. PavlovaFiz.Metallov.Metalloved.17,572-7 (1964): Festigkeit I
und Bruchmechanismus bei-WC-Co-Hartmetallen1505. C.A. Krier, paper: Refractory Composites Working Group 1964:
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1506. B.T. Krysin et al., Tr.Vsches.Nautschn.Techn.Konf.Poroschk.Met., Erivan 1964, 257-65: Produktion von Cermets
1507. W.J. Lackey jr., HW-8l 602 (1964), p.2.l1: High TemperatureReactions in the W-U-O System
1508. W.E. Lawrie and M.D. Oestreich, AD-601 112 (1964): Testingof Ceramic Coatings
1509. A.A. Lebedev, Sov.Powder Met.Metal Ceram. (1964), No.l, 55-9:Durability of Silicon Carbide (Cermet) in a ComplexStressed State
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1510. W.H. Lenz and M.C. Tinkle, LA-3232 (1964): The Forming andEvaluation of U02-Agglomerates for Cermets Applications
1511. E.M. Levin, C.R. Robbins and H.F. McMurdie, Phase Diagramsfor Ceramics (Am.Ceram.Soc., Columbus, 1964), 43-71:Two Metals with Oxygen
1512. M.R.Licciardell~B. Ohnysty and J. Boland, AD-461 368 (1964):Composite Structures (W-A120 3)
1513. T.S. Lundy, J.J. Federer, W.K. Biermann, D. Heitkamp andF. Murdoc, ORNL-3470 (1964), 67-74: Diffusion Studiesof Niobium into U02
1514. D.R. McClintok and C.J. Kubit, Trans.Am.Nucl.Soc. 7, 120(1964): Performance of Stainless Steel Clad-U02 FuelElements in a Borated PWR Loop
1515. R.W. McClung, E.S. Bomar and R.J. Gray, Metal Progr. (July1964), 90: Evaluatinß Coated Particles of Nuclear Fuel
1516. W.R. Martin and S.R. Weir, ORNL-3557 (1964), Reactor Mater.7(3) (1964): Mechanical Properties of X-8001 and 6061Aluminum Alloys and Aluminum Base Fuel Dispersion atElevated Temperatures
1517. L.A. Maschkovitsch, A.F. Kutejnikov und T.P. Maslova, Zavod.Labor (1964), Nr.5, 522-4: Phasenanaly~vonWC-Hartmetallen
1518. H. Matsumoto, S. Yamanchi and G. Nishiyama, Rep.Gov.Ind.Res.Inst.Nagayo 13, 39-45 (1964): Alumina Base Cermets VI
1519. R. Matt, Vortrag: 20th. Ann.Meeting Meta1 Powder Ind.Fed.Chicago 1964: Composite Materials
1520. I.P. Melashenko and K.V. Gubar, in: Electric Contacts(Izd.Energiya, Moscow, 1964), 234-44: Heavy DutySwitching Contacts
1521. R. Mendez-Penalosa and R.E. Taylor, J.Am.Ceram.Soc.4h 416-7(1964): The~mal Expansion of Uranium Sesquicarbide
1522. A. Milner and C.R. Tottle, J.lnst.Met. 93, 48-52 (1964):The Bonding of Metals to Uranium-nioxide
1523. G.W.C. Milner, G. Phillips, I.G. Jones, D. Crossley and D.H.Rowe in: L.E. Russel (ed.), Carbides in Nuclear Energy(Macmillan and Co, London, 19641 447-56: ChemicalAnalysis of Actinide Ceramics and Cermets for MainConstituents
1524. A. Migoshi und Y. Doi, Sumitomo Electric Techn.Rev. (1964),Nr.4,80-6: The Particle Size of Submicron Tungsten andWO Powders for WC-Co Alloy
1525. J.E. Monroe and D.W. Stoffel, TID-7E87 (1964), 360-83:Fueled Donklemodule Converters: Fabrication, Testingand Evaluation
1526. A.R. Moss and W.J. Young, Powder Met. 7 (14), 261-89 (1964):The Role of Are-Plasma in MetalTurgy
1527. S. Nishigaki and K. Maekawa, CONF-281-34 (1964): On theStudy of Fabrication of BeO-U02-Be Fuel Pellets
1528. J. Nixdorf, BMI Frankfurt (1964): Hinweise auf die Verwendung von Cermets in direkten Stromerzeugern
1529. G. Ondracek, LEITZ-Mitt.Wiss.u.Techn. 11 (7), 216-9 (1964)Uber Untersuchungen mit dem LEITZ-Universaldilatometer Modell UBD an Spaltstoffcermets
1530. G. Ondracek, Prakt.Metallogr. 1, 113-7; 154-9 (1964): Anwendung metallographischer Methoden auf Keramik,Cermets und Sintermetalle. I. Allgemeine Einführung;IT. Arbeitsvorgänge
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1533. L,Peras, U.S. Patent 3,136,011 (1964): Methods of PreparingCasting Molds
1534. S. Peterson, Nucl.Safety 6 (1), 41 (1964): Ignition andCombustion of Fuels and Structural Materials
1535. S. Peterson, Nucl.Safety 6 (1), 238 (1964): Integrity ofMetallic Reactor FUels
1536. J. Poulignie~ in: J. Benard (ed.), Oxydation des metaux(Gauthier-Villars, Paris, 1964), Ch.15, 483-97:Les mat~riaux ceramiques et les cermets
1537. N.F. Pravdjuk, S.M. Astrakhantsev, K.P. Dubrovnin, E.G.Ivanov ~nd V.I. Karpukin, A/Conf. 28/P/338b (1964):Behaviourof Nuclear Fuel under Irradiation
1538. S.I. Radu, Cerc.Met. (1964), Nr.6, 365-76: Aufarbeitung vonHartmetall-Schrott
1539. T.J. Ready, W.V. Green and H.D. Dewis, LA-2485 (1964):Fabrication and Evaluation of Powder-Rolled TungstenUranium Dioxide Dispersions
1540. G.C. Reed and W.L. Smith, J.Meta1s 16, 175-9 (1964):Chromium-Magnesia Composites--
1541. K.D. Reeve, J.Nucl.Mater. 14, 435-43 (1964): Fabrication andStructure of Beryllium Oxide-Based Fuel
1542. H. Reininger, Metalloberfl. 18, 45-9, 261-4, 374-52 (1964):Flammspritzen nichtmetallischer Schutzsehichten aufMetalloberflächen
1543. C.F. Reinke, Trans.Affi.Nucl.Soc. 7, 126-7 (1964): Postirradiation Annealing of Some Al-Base Fuels
1544. A.G. Richt. ORNL-3470 (1964), 221-6
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1546. H.E. Röllig, Kernenergie 7, 11-8 (1964): Compatibility ofU02 and Al. 2 StudTes on UO?-Al Reaction Inhibitionin Dispersion-Type Fuel Element
1547. H.E. Röllig, Deutsches Patent 1 182 363 (1964): Methode zurHerstellung von Dispersionen spaltbaren Materialsfür Brennelemente
1548. R.R. Rollins, (Unpublished Report), General Electric, Vallecitos Atomic Laboratory,1964: Hot Pressing of Dispersion Fuels
1549. P. Rousset et A. Accary, Symposium sur la metallurgie despoudres (Editions Metaux, St.-Germain-en-Laye, 1964),289-303: Frittage en pr~sence d'une phase liquidede cermets uranium-monocarbure d 'uranium
1550. R. Ruh and H.J. Garrett, J.Am.Ceram.Soc. 47, 627 (1964):Reaction of Zr02 and Cr --
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1552. L.E. Russel and B. Riley, BP-945 726 (1964): Improvements inor Relating to Nuclear Fuel Compositions
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1553. W. Rutkowski, W. Szteke and M. Wieczorkowski, INR-557/15(1964): Swaging Metallic ana Non-Metallic Powdersin Metallic Tubes
1554· M.K. Rybaltschenko and O.V. Padalko, Tr.Vsches Nautsch Techn.Konf.Poroschk.Met., Erivan 1964, 195-9: Gefüge vongesinterten Mo-Zr02-Cermets
1555. E.I. Ryshkewitch, Vortrag: 5.Plansee-Seminar Reutte/Tirol1964: Combination of BeO-W
1556. E.I. Ryshkewitch, U.S. Patent 3,148,981 (1964): Metal-OxideGradient Ceramic Bodies
1557. D.J. Sandstrom, Metal Progr. 86 (3), 91 (1964): ConsolidatingMetal Powders Magneticäny
1558. S. Schneider, Electronic Ind. 23, 59-62 (Dec.1964): Appraisalof Cermet PotentiometerS-
1559. H. Schreiner, Pulvermetallurgie elektrischer Kontakte(Springer, Berlin, 1964)
1560. D.M. Scruggs and R.H. Herron, U.S. Patent 3,139,672 (1964):Rocket Nozzles etc.
1561. B.J. Seddon, TRG-842 (1964): Summarized CompatibilityReview of Reactor Materials for CO2-Cooled GraphiteModerated Reactors
1562. S.J. Senatore, Trans.Am.Nucl.Soc. 7,414-5 (1964): Use ofGamma-Ray Shielding Techniqües for Evaluating theMatrix Homogenity of Reactor Fuel Elements ContainingMaterials with Similar Atomic Numbers
1563. V.Ya. ShlYUko, Sov.Powder Met.Metal Ceram. (1964),No.3,245-7: Laboratory Apparatus for Electron-Beam VacuumMelting and Machining of Refractory Cermets
1564. F.H. Simpson, AD-458 800 (1964): Macrolaminate ParticleComposite Material
1565. S. Sklarew, paper: Refractory Composites Working Group 1964:The Problem of Accurately Measuring ChangingTemperatures of Non-Metallic Surface
1566. F.F. Smirnov, L.F. Gurewitsch, T.M. Stepanova und B.Z. Levin,Tverdyje Splavy (1964),Nr.5, 14-28: Schneideigenschaften von WC-Co-Hartmetall mit erhöhter Festigkeit
1567. E.A. Snajdr, HW-79 676 (1964): Fracture Stresses of UO?Tungsten Cermets Evaluated by the Diametral TensileTest
1568. M. Steinberg, Vortrag: 5.Plansee-Seminar, Reutte/Tirol 1964:Die Rolle der Verbundwerkstoffe in der Raketen-undRaumfahrttechnik
1569. H.E.N. Stone and N.A. Lockington, Nature 203, 70 (1964):Cr 0 -Cermets; Powder Met. 7 (14),-rT3-24 (1964):Th€ Preparation and Some Properties of Chromic OxideChromium Cermets Made by Partial Reduction of theOxide
1570. R.F. Stoops and A.J. Mione in: L.E. Russel (edJ, Carbides inNuclear Energy (Macmillan, London, 1964): NovelUranium/Uranium Carbide Cermet
1571. K.H. Styr, NASA-CR-59 210 (1964): Thermal Insultation Materials
1572. W.H. Sutton et al., AD-461 357 (1964): Composite StrueturalMaterials
1573. H. Suzuki, M. Sugiyama and I. Umeda, J.Japan Inst.Met. 28,55-8 (1964): Effect of Carbon Content on the Properties of WC-Co Alloys
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1574. J.A. Swartout, A.L. Bock, F.E. Co1e, R.TI. Cheverton, G.M.Adamson and C.E. Winters, A/CONF 28/P/221 (1964):The Oak Ridge High F1ux Isotope Reactor
1575. B.L. Tay1or, G.W.C. Mi1ner, F.I. Birks and H.A. Prior in:L.E. Russe11 (ed.), Carbides in Nuc1ear Energy(Macmi11an, London, 1964): TIetermination of MinorConstituents and Contaminants in Actinide Ceramicand Cermete
1576. R. Theisen, EUR-1819 (1964), 63: App1ication of X-RayMicroana1ysis and X-Ray Projection Micro-Radiographyto the Study of Unirradiated and Irradiated HighTemperature Reactor Fue1s
1577. W.C. Thurber and R.J. Beaver, ORNL-3470 (1964), 227-31:Enrico Fermi Fast-Breeder Reactor
1578. W.C. Thurber, F.R. McQui1kin, E.L. Long and M.F. Osborne,ORNL-3709 (1964), 227-31: Irradiation Testing ofFue1 for Core B of the Enrico Fermi Fast BreederReactor
1579. V.I. Tretjakov, I.N. Chaporova and E.TI. Samoi10va in: S.L.Baschkirov (ed.), Hard Metals Techno10gy and Producüonin SSSR (Pergamon Press, London, 1964), 157-64: TheEffect of the Coo1ing Conditions and Phase Compositionof WC-Co Hard Al10ys on the TIecomposition of aSolidSolution of Wand C in Co
1580. H. Titze, Sprechsaa1 Keramik 97, 711 (1964): Keramische undmetallkeramische Werkstoffe in der Raumfahrttechnik
1581. V.I. Tumanov, V.F. Funke, M.L. Baskin und T.A. Novikova, Izv.Akad.Nauk SSSR, Met. (1964), Nr.l, 170-5: Einflußder Temperatur auf die physikalischen Eigenschaftenvon WC-Co-Hartmetallen
1582. V.I. Tumanov, V.F. Funke, Z.S. Truchova, T.A. Novikova undK.F. Kuznekova, Poroschkovaja Met. (1964),Nr.2, 57-60:Wärmebehandlung von WC-Co-Hartmeta11en
1583. A.M. Umanskii and V.I. Sokol'skii, Sov.Powder Met.Meta1Ceram. (1964),No.2, 151-2: Use of Hard-Alloyed Too1swhen Pressing Cermet Parts on Transfer Presses
1584. J.W. Vogan and J.L. Trumbul1, ATI-604 685 (1964): Meta1Ceramic Structura1 Composite Materials
1585. W.H. Wade and N. Hackerman, Advan.Chem.Series 43, 222-31(1964): Thermodynamics of Wetting of SoITds
1586. B.E. Waye, Ceramics 15 (186), 46-51 (1964): TechnicalCeramies: XITI-,-Ceramics for High Temperature
1587. H.P. Wi11iams, Ber.TItsch.Keram.Ges. 41, 637-44 (1964): TIieMeta11isierung von keramischen-Pu1vern
1588. L.S. Wi11iams, paper: Special Ceramies, Stoke-on-Trent 1964:Infi1tated Oxide Cermets
1589. A.P. Wing, ITIO-17 Oll (1964): Transient Test of Fully Enriched, Stain1ess Stee1 P1ate-Type, P Core in Spert IReactor: TIata Summary Report
1590. W.J.K. Wright and J. Wil1iams, U.S. Patent 3,117,914 (1964):Nuc1ear Fue1 Materials
1591. L. Yang, TI.L. Bosseau, F.TI. Carpenter et a1., GA-4769 (I)(1964): Investigations of Carbides as Cathodes forThermionic Space Reactors
1592. K. Zarnowiecki, B. Fi1ipiatz and M. Czerniewski, Nuc1eonica~,
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1593. R.J. Ackermann, E.G. Rauch and R.J. Thorn, J.Chem.Phys. 42,2630 (1965): Comments on the Pressure of Uranium overUranium-Uranium Dioxide System
1594. C.C. Addison, M.G. Barker and R.J. Pulkam, J.Chem.Soc.4483(1965): Reactions of Liquid Sodium with TransitionMeta1 Oxides
1595. G.I. Aksenov and E.M. Minaev, Sov.Powder Met.Metal Ceram.(1965),No.3, 241-44: Determination of the Physiomechanica1 and Techno1ogica1 Properties of CermetMaterials on a Single Annular Specimen
1596. A.E. A1brethsen, BNWL-IR-3 (1965): Description of InventionUranium Dioxide-Lead Radiation Shie1ding
1597. I. Amato, R.L. Colombo and F. Polin, paper: Colloque Int.Proprietes des Refractaires ä Haute Temperatures,Paris 1965: Dependance of Microstructure of the HighTemperature Properties of Uranium Oxide-Mo1ybdenumand Uraniumoxide-Tungsten Cermets. I. E1ectrica1Resistivity
1598. I. Amato, R.L. Co1ombo and A.M. Protti, Energia Nuc1. 12,326 (1965): Dispersion Fue1 Elements -
1599. Anon., ANL-7003,-7020,-7071 (1965): Reactor Deve10pmentProgram
1600. Anon., Beckmann-Report 1/65 (1965): Ein neues Cermet-E1ementder He1ipot-Division- das z.Z. kleinste Potentiometerder Welt
1601. Anon., BNWL-91 (1965): Ceramics Research and Development1602. Anon., GEMP-43A, 49A, 50A, 51A, 52A, 55A, 334A (1965): High
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Fuels for Fast Reactors-1607. Anon., Steel 157, 58 (Dec.1965): Metal-Ceramic Coat Holds
Plastic Firmly1608. A.Y. Artamonov, Effet des conditions du traitement sur
l'dtat physico-mechanique des cermets (Naukova Dumka, Kiev, 1965)
1609. G. Arthur, Brit.Patent 1,012,162 (1965): Improvements inand Relating to the Manufacture of Cermets withMetal Members Bonded thereto
1610. Associated E1ectrical Industries, Brit.Patent 985,174 Q96~:
Preparation of Cermets1611. A.I. Avgustinik, Zur.Vsches.Chim.Obschtsch.D.I. Mendelejeva
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1613. W.J. Bailey, R.J. Hennig, D.R. deHaas and R.E. Skavdahl,BNWL-SA-251 (1965): FFTF Driver Fuel: Pu02-StainlessSteel Cermet
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1614. A.S. Bain, M. Aragones and H. Guerrero, AE6L-2289 (1965):Me1ting of Uranium Oxide During Irradiation of ShortDuration
1615. R.W. Bart1ett and J.K. Hall, Am.Ceram.Soc.Bul1. 44 (5),444-9 (1965): Wetting of Severa1 Solids bY-A1203and BeO Liquida
1616. A. BäumeI, Werkstoffe u. Korrosion 16, 11-20 (1965):Korrosionsverhalten gebräuchTicher und neuentwickelter, gegossener Hartlegierungen
1617. A.L. Bax1ey and J.R. Couper, Univ.Arkansas, Engng ExperimentStation Res.Report No.6 (Fayettevi1k, Arkansas, 1965):Thermal Conductivity of Two-Phase Systems: Designand Construction of a Thermoconductimetric Apparatus
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1620. R. Bernard, R. Riviere et Mai-Xuan, in: Symp. sur la~eta11urgie des poudres (Metaux, Paris, 1965),271-8:Etude radiocrista11ographique des anfraints dansles a11iages durs frittes WC-Co et de 1eur ~volutionen fonction de 1a temp~rature
1621. O.R. Bergmann, U.S. Patent 3,178,807 (1965): Cermet ofAluminum with Boron Carbide or Silicon Carbide
1622. A.A. Betser,RMB-2394-15 (1965): Transverse Bending Test ofWC-Co SampIes at E1evated Temperatures
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1625. J. Buffet, TI.S. Patent 3,182,474 (1965): Hot Extrusion of(Cermet) Materials
1626. G.F. Burdi (ed.), NAA-SR-8617 (1965), Vo1.TI!: 3.1 Cermets1627. A.C.D. Chaklader and M.N. Shetty , Trans.Met.Soc.AIME 233,
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1628. F.J. C1aus, Am.Soc.Met.Eng.Quart. 5 (4), 58-61 (1965):Lubricants for the Space En1rironment (~ermets)
1629. M. Conte-Albert, CEA-R-2828 (1965): Etude de l'oxidationdes poudres d'uranium ä basse temperature et sonapp1ication au frittage de poudres d'uranium oxyde
1630. L.H. Cope, Metallurgia 72, 165-77 (1965): MechanicalProperties cf Nuclear Cermets
1631. W. Dawihl and G. Altmeyer, Z.Metallkde 56, 512-5 (1965):Uber die Temperaturabhängigkeit aer Torsionsfestigkeit von WC-Co-Legierungen
1632. R.W. Dayton and S.J. Paprocki, BMI-1707 (1965): ProgressRe1ating to Civi1ian App1ications
1633. A.G.H. Dietz, paper: Am.Soc.Test.Mat., Philadelphia 1965:Composite Materials
1634. J.P. Dumas, B. Mansard and p. Rousset, EUR-2023f ,1965):Preparation and Irradiation of U-UC Cermets and ofStoichiometric UC
- 90 -
1635. F. Eisenkolb, Wiss.Z.Teehn.Hoehsehule Dresden 14, 123-34(1965): TIber einige Sondergebiete der PÜIvermetallurgie
1636. V.P. Eljutin et al., Izv.Akad.Nauk.SSSR, Neorg.Mater.l,2208-11 (1965): Benetzung von W durch flüssiges A1203
1637. J.P. Evans, AERE-M-1314 (1965): The Fabrieation of (u,Fu)02Stainless Steel Cermets
1638. R.L. Every, J.Eleetroehem.Soe. 112, 524-6 (1965): Preparationof Transition Metal Oxide-Metal Eleetrodes
1639. H.E. Exner, Materialprüf. 7, 375-9 (1965): Die Auswertungvon Festigkeitsdaten spröder Werkstoffe mit Hilfe derExtremwertstatistik
1640. E.W. Filer, C.A. Asaud, K. Laeefield and R.B. KulI, NMI5025 (1965): Metallographie and CeramographiePreparation of Nuelear Materials
1641. H.F. Fischmeister und H.E. Exner, Planseeber.Pulvermet. 13,178-98 (1965): Beobachtungen über den Mahlvorgang-bei Hartmetallpulvern
1642. B.R.T. Frost, L.H. Cope, J.D.B. Lambert, H. Lloyd, W. Long,J.A. Manson and P.G. Mardon, Proe. 3rd lnt.Conf.Geneva 1964 (Uni ted Nations, New Yo~k, 1965), Vol.lO,170-7: Fabrieation and Irradiation Studies of UO Stainless Steel and (U,Pu)02-Stainless Steel Ce~ets
1643. N. Fuhrmann and R. Holden, GMAD-3078-25 (1965): Developmentof Hot Isostatie Pressed Cermet-Fuel
1644. R.M. FUlrath,in: J.E. Hove and W.C. Riley (ed.), Ceramies forA~vaneed Teehnologies (J.Wiley, New York, 1965),Ch.6: Composite Materials
1645. A. Giamei and E.J. Freise, paper: Met.Soe.AlME, New York,1965: An Investigation of the Effeets of Tungsten Carbide Additions on the Allotropie Transformation ofCobalt
1646. C.G. Goetzel and H.W. Lavendel,in: F. Benesovsky (ed.),Metalle für die Raumfahrt (Metallwerk Plansee, Reutte/Tirol, 1965), 149-62: lnfiltrated Powder Componentsfor Power Plant and Propulsion Systems
1647. S. Goldsmith, BNWL-SA-415 (1965): Stainless Steel-Pu02Cermet Development Studies
1648. S. Goldsmith, BNWL-150 (1965): Stainless Steel-Pu02 CermetPin Irradiations
1649. M.J. Graber and R.A. Moen, Trans.Am.Nuel.Soe. 8, 31 (1965):The Effeets of Compatibility on the PerIormanee ofAluminum Fuel Plates Containing Various Fuel Dispersions
1650. L.N. Grossman, R.R. Ekvall and H.W. HilI, CONF-650 908-4(1965): Uranium Oxide Fuel for Nuelear ThermionieConverters
1651. L.N. Grossman and D.M. Rooney, GEAP-4679 (1965): InterfaeialReaetion between U02 and Zirealoy 2
1652. B.H. Hamling, S. Kahn, G.G. Meissels and R.J. Miller, AGN8132 (1965): Fissioehemieal Development Program
1653. D.P. HasseIman and R.M. Fulrath, URCL-16 658 (1965), 155-7:Meehanieal Properties of Composite Systems with Ceraie Matriees
1654. F.X. Hassion, SA-TR-18-1096, AD-621 064 (1965): Test Resultson Falex Pins Coated by the Plasma-Are Proeess
1661. E.S.
1662. S.P.
1663. R.J.
1664. J.W.
1665. J.G.
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1655. K.R. Herrmann, Schweiz.Arch.Angew.Wiss.Tech. 31, 2-29 (1965):Zusammenfassender Bericht über die Entwicklung keramischer Konstruktionswerkstoffe, ihre Eigenschaftenund ihren Anwendungsbereich
1656. J.F. Hildebrand and W.H. Watson, Wear 8, 34-42 (1965):Fretting Failure of WC-Co Coated Slide Bearing
1657.J.S. Hill, U.S. Patent 3,201,236 (1965): Method of MakingMetal Bodies Incorporated with Nonmetallic RefractoryMaterial and Product Thereof
1658. P. Himmelstein, H. Kroll, H. Kühn, B. Liebmann und L. Schäfer, EUR-2004d (1965), EURAEC-1148 (1965): Entwicklungvon Verfahren zur Herstellung von Urankarbiden sowieCermets auf UC-Basis
1659. L.N. Hjelm, SAMPE J. (June 1965), 8-19: Metal-CerarnicComposite Material
1660. L.N. Hjelm, Proc.Air Force Materias Symp., Miami Beach 1965~ARML-TR-65-29 (1965), 555-82: Metal-Cerarnic CompositeStructural Materials
Hodge, Mater.Design Engng 61, 92-7 (May 1965): HotIsostatic Pressing Improves Powder Metallurgy Parts
Hoffmann, S.I. Ogawa and H.E. Williams, GEAP-4702(1965): Performance of Fuel Rods to InvestigateIncreased Thermal Output Capabilities
Holladay, GEAP-4894 (1965): High Power Density Deve1opment Project
Huffadine, NA-63-1358-13 (1965): Deve10pment of HighStrength Low Density Composite Material
Hunt, paper: Am.Ceram.Soc., 67th Meeting, Philadelphia1965 (Ref.Nr. 7-S1-65): Hot Extrusion of CerarnicNuclear Fuels
1666. V.V. Ivaschenko, I.P. Tartakovoskii and T.M. Golubev, Sov.Powder Met.Metal Cerarn. (1965), No.9, 727-9:Investigation of the Vibratory Compaction of TwoComponent Systems of Spherical Powders
1667. G. Jayne, G. Cizeron und P. Lacombe, Rev.Met. 62, 619-24(1965): U02-W Cermets durch aktiviertesSintern
1668. G.H. Johnson, Ceramic-Metal Systems and Enamel Bibliographyand Abstracts 1963-64 (Am.Cerarn.Soc., Columbus, 1965)
1669. K.R. Jord~~, R.J. Herbst and R.G. Palm, ANL-7120 (1965), 301:Compatibility of Modified Carbide Fuels with StainlessSteel
1670. J.M Karet and W.M. Wheildon, Am.Soc.Met.Techn.Rep.No.D5-22(1965): Flame Sprayed Ceramies Progress from Aerospace to Industry
1671. V.K. Kazakov, Poroschkovaya Met. (1965), No.10, 80-5:Interaction of Titanium Nitrides with Molybdenum,Tungsten and Iron-Group Metals
1672. A.I. Kaznoff and M.J. Sanderson, CONF-650 908-6 (1965):Diffusion and Interactions in the Urania-Tungstenand Urania-Molybdenum Systems
1673. A.I. Kaznoff, M.J. Sanderson and I.E. van Hoomissen, Trans.Am.Nucl.Soc. 8, 32 (1965): Interaction and Diffusionin the Urania=Molybdenum System
1674. R. Kieffer and F. Benesovsky, Hartmetalle (Springer-Vlg,Wien, 1965)
1675. S. Kiss, Nuklearna Energija 2 (5/6), 9-14 (1965): SomePhysico-Chemica1 Aspects of Cermet Production
1676. I.B.
1677. C.1.
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1679. 1.1.
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Knighton and R.K. Steunenberg, ANL-7057 (1965):Preparation of Metals by Magnesium-Zine Reduetion
Kobrin, Iron Age 196, 121-3 (Oet.1965): Cermets, MetCers, Plastimets: Building from the Partiele up
Konevskii and A.P. Fillipov, Radioklumiya 7, 207 (1965):Kineties of U02- and Fe (TII)- Reaetions In PerehloricAcid ~
Kornilov and V.V. Glazova, 1zv.Akad.Nauk SSSR Met.(l965),Nr.l, 189-94: System Ti-A1203
Krasovski and V.I. Trosehtsehenko, Zavod.Labor Nr.l,109-12 (1965): Einfluß der Probengröße auf die Festigkeit von Cermets
1681. I. Kraus, Czeehosl0 Fiz.Zh. 15B (5), 366-71 (1965): ThermalStresses in Sintered WC-Co Cermets with 2.2 and 3Mieron Mean WC Grain
1682. 1. Kraus, Pokroky Prask Met. (1965),No.2, 19-31: ThermalStresses in Cermets Based on Tungsten Carbide
1683. R.H. Krueger, Lubrie.Engng 21, 501-5 (1965): FrietionalBehaviour of MateriaIS in JP-4 Fluid
1684. W.H. Lenz and M.C. Tinkle, LA-3232- Ms (1965): The Formingand Evaluation of U02 Agglomerates for CermetApplieations
1685. R. Lieeiardell0, AD-461 369 (1965): Composite Struetures1686. F.E. MeGrath, J.A. De Mastry and M.S. Farkas, NMI-5025
(1965), 39-58: Metallography of Ceramic Fuel andRefraetory Metal Compatibility Couples
1687. W.J. Maeek and J.E. Rein, IDO-14 656 (1965): Burnup Detemination of Nuelear Fuels - Annual Report
1688. J.W. Mar and L.A. Shephard, AD-627 173 (1965): MechaniealBehaviour of Composite Materials
1689. A.E. Martin and R.K. Edwards, J.Phys.Chem. 69, 1788 (1965):The Uranium-Uranium Dioxide Phase Diagram at HighTemperatures
1690. P.W. Martin, Metal Finishing 11, 447-51 (1965): Eleetrodeposition of Composite-Materials (WC-Cu)
1691. S. Matras, ANL-6975 (1965): Vibratory Grinding and Polishingof Metallographie Speeimen
1692. E. Meckelburg, Chem.~andsch. (1965),Nr.15, 449-52: CompositeMaterials
1693. G.W.C. Milner, A.J. Wood and G.E. Cassie, AERE-R-4975 (1965):The Determination of Plutonium by PotentiometrieTitration
1694. A.J. Moulson, W.R. Phillips and P. Popper, in: P. Popper (ed~
Special Ceramies 1964 (Academic Press, New York, 1965}Interactions between Metals and Ceramies at HighTemperature and its Effect on Eleetrieal Insultation
1695. J. Nakayama, J.Am.Ceram.Soc. 48, 583-7 (1965): DirectMeasurement of Fraeture-Energies of Brittle Heterogeneous Materials
1696. E. Niki, S. Kohara and K. Tatouzawa, Jap.1nst.Metals J. 29(5), 548-52 (1965): Sintering and some Properties-of1ron-Bonded Titanium Carbides
1697. R.C. Noyes, NAA-SR-M-ll 731 (1965): Temperature Distributionsfor Various Fuels with Nonuniform Heating
1698.K.N. Nu and J. Gurland, NYO-2394-12 (1965): Meehanical Properties of High-Cobalt Cemented Tungsten Carbide
- 93 -
1699. B. Ohnysty, R.J. Akins and A.R. Stetson, AD-467 204 (1965):Composite Materials for Gas Turbine App1ications
1700. G.W. Parker, C.I. Barton, G.E. Creek, J.G. Wi1helm and W.I.Martin, OF~L-3789 (1965), 251-62: Experiments withthe Containment Mockup Faci1ity
1701. G.W. Parker and J.G. Wilhe1m, ORNL-3776 (1965), 37-40:Me1ting Points of Mixtures of Oxidized Fuel C1addingwi th U02
1702. A. Pattaret, S. Smoes and S. Drowart, EUR-2458 (1965):Etudes thermodynamiques par spectrom~trie de masse:syst~me uranium-oxygene
1703. V.M. Pelepelin, Sov.Powder Met.Metal Ceram. (1965), No.ll,933-8: Effect of Plastic Deformation on the Physiomechanical Properties of Tungsten Carbide-CobaltHard Alloys
1704. S.I. Popel et al., Pover Javl.Razpl.Voznik Tverd.Faz.(1965),550-7: Eindringtiefe von Oxydschmelzen in poröseMg-Körper
1705. I.D. Radomyselski, Poroschk.Met.Metalloobr.Erivan (1965),112-31: Derzeitiger Stand der Herstellung metallkeramischer Werkstoffe
1706.S.I. Radu, Cercet Met. 7,415-26 (1965): Vacuum Sintering ofHard Alloys -
1707. D. Ramaswani, N.M. Levitz and A.A. Jonke, ANL-6830 (1965):Engineering Development of Fluid-Bed FluorideVolatility Processes. Pt 2. Bench-Scale Investigationof a Process for Aluminum-Uranium Alloy and Stain1essSteel Cermet Fuels
1708. L. Ramqvist, Int.J.Powder Met. 1 (4), 2-21 (1965): Wettingof Metallic Carbides by Liquid Copper, Nickel, Copperand Iron
1709. T.J. Ready and H.D. Lewis, LA-DC-6671 (1965): Int.J.PowderMet. 1 (2), 56-63 (1965): A Technique for PowderR~lling Tungsten and Tungsten 45 Volr% U02 Disper Slons
1710. L. Reed and R.A. Huggins, J.Am.Ceram.Soc. 48, 421-6 (1965):Electron Probe Microanalysis of Grain-to-Metal Seals
1711. L. Reed and R.C. McRae, Am.Ceram.Soc.Bull. 44, 12 (1965):Evaporated Metallizing of Ceramics --
1712. A.H. Roberson, A. Landsberg and F.E. Block,in: F. Benesovsky(ed.), Metalle für die Raumfahrt (Metallwerk Plansee,Reutte/Tirol, 1965), 316-24: Nonweta11ic PowdersCoated with Tungsten and Molybdenum
1713. ~ Rubisch und O. Vohler, in: F. Benesovsky (ed.), Metals forthe Space Age (Metallwerk Plansee, Reutte/Tirol, 1965~759-85: Graphit in der Raumfahrt
1714. W. Rutkowski, W. Seteke and M. Wieczorkowski, Nukleonika 10,503-12 (1965): Paliwowy .--
1715. E. Ryshkewitsch,in: F. Benesovsky (ed.), Metalle für dieRaumfahrt (Metallwerk Plansee, Reutte/Tirol, 1965),823-30: Oxide-Metal Compound Ceramics
1716. W. Sakwa und Ch. Lesniak, Giessena-Praxis Nr.8, 157-61(Apr.1965): Schlickergießen von Karbidpulver
1717. V.T. Scheljubsky, Dokl.Akad.Nauk SSSR 162, 1038-40 (1965):Untersuchung von Metall-Glas-PUIVergemischen
1718. I.P. Schwartz, SPM-867 (1965): Das Brennelement vom Typ ATR
- 94 -
1719. R.L. Sharkitt and P.S. Hessinger, paper: Am.Geram.Soc. 67thMeeting, Philadelphia 1965 (Ref.Nr.lO-C-65): Development and Evaluation of Beryllium OXide-TungstenComposite Rocket Nozzles
1720. F.H. Simpson and L.M. Stejskal, AD-457 992,-462 748,-464 507(1965): Macrolaminate Particle Gomposite MaterialDevelopment
1721. L.A. Smirnov, S.I. Popel and B.V. Tsarevskii, Izv.VysshikhUchebn.Zavedenii, Chern.Met. 8 (3), 10-4 (1965):Effect of Titanium on Surface-Propexties of Iron andIron-Garbon Alloys
1722. R.E. Smith, Ghem.Eng. 72 (10), 194-200 (1965); Mach.Design 38(21), 201-5 (1965): Geramic-Metal Composites --
1723' Ge Soen Joeng and Chan Soen Lee, Chosun Kwattakwon Tongbo(1965), Nr.4, 20-5 (CA 67, 56 679): Study of theBinder Phase in WC-Ni Hard Metals
1724' Solar, AD-469 234 (1965): Composite Structures1725. T.D. Souza Santos, H.M. Haydt and C. de Freitas, Met.ABM 21,
369-76 (1965): Fabrication of Fuel Elements for theArgonaut Reactor of the Institute of NuclearEngineering
1726. T.D. Souza Santos, H.M. Haydt and G.T. de Freitas, Proc.3rd Int.Conf.Peaceful Uses Atomic Energy, Geneva 1964(United Nations, New York, 1965),Vol.10, 26-9; 32-6:Development in Fuel Fabrication of Research Reactorsin Brazil; Experimental Studies on the Fabricationof Thin Fuel Plates with U
308-Al Cermet1727' H.S. Spacil, U.S. Patent 3,192,042 (1965): Method of Forming
a Cermet1728. M.A. Steinberg, in: F. Benesovsky (ed.), Metalle für die
Raumfahrt (Metallwerk Plansee, Reutte/Tiro1, 1965),85-118: The Role of Composites in Missile and Spacecraft Application
1729. K. Steinkopf und L. Loeffler, Deutsches Patent 1.195.879(1965): Preßblock zur Herstellung stabförmiger Kernreaktor-Brennelemente
1730. D.L. Stolz, Reactor Mater. 8 (2), 64-5, 72 (1965): Metals-Ceramic Fuels -
1731. H.E.N. stone and N.A. Lockington, Powder Met. 8 (15), 81-91(1965): The Preparation and Some Properties of Chromic Oxide-Ghromium Germets. TI. Preparation Directlyfrom Mixtures of Oxide and Metals and of Oxide,Metal and Graphite
1732. R.F. Stoops, N. Carolina state Univ., Dept.Eng., Res.Bull.No.82 (1965): Cermet Technology
1733' K.H. Styhr, NASA-CR-63 650 (1965): Research on ThermalTransfer Phenomena
1734' L.A. SundqUist and H.N. Barr, paper: Am.Ceram.Soc l 67thMeeting, Philadelphia 1965 (Ref.Nr.8-S1-65J: A NewTechnique for Metallic Coating Nuclear Fuel Particles
1735' W.H. Sutton et al., AD-466 957 (1965); NOw-64-0540c (1965);DMIC-61 643,-60 592,-61 625 (1965): CompositeStructural Materials for High Temperature Application
1736. T. Tahamori and M. Tomozawa, J.Am.Ceram.Soc. 48, 405-9 (1965~
Behaviour of Interlayers of Glas-to-Tungsten Seals1737· L.A. Tentarelli, J.M. White and R.W. Buck, AD-467 529,
471 207 (1965): Refractory Metal-to-Ceramic Seals
- 95 -
1~8 • A.S. Tetelman, NASA-CR-64 Oll (1965): Mechanism of Strengthen~ng and Fracture in Composite Materials
1739· G.N. Tret'yachenko, Sov.Powder Met.Metal Ceram. (1965),No.2,154-8: Similarity Theory Applied to the Thermal ShockResistance of Brittle Cermets
1740. S.W. Tsai, NASA-CR-224 (1965): Strength Characteristic ofComposite Materials
1741. L.H. Van VIaeh, Am.Soc.Met., Met.Eng.Quart. 2 (4), 7-12(1965): The Metal-Ceramic Boundary
1742. P. Wagner, J.Less-Common Met. 2, 40-7 (1965): Loss of U02from Molybdenum-U02 Cermets by High-TemperatureDiffusion
1743. R. Wang et D. Yerouchalmi, Vortrag: Colloque Int.Prop.Mec.Phys.-Chim. des Refractaires, Paris 1965: Electrodeset parois a temp6ratures de faces frontales structuralement determinees pour g~nerateurs magn~tohydrodynamiques a cycle ouvert
17~4. T.D. Watts, W.I. Werner and I.P. Hammond, ORNL-TM-l193 (1965)Calculations of Charge and Contour Dimensions ofPowder Loading Assemblies Used in the Production ofHFIR Composite Fuel Compacts
1745. B. Weidenbaum and H.H. Hausner, Trans.Am.Nucl.Soc. 8, 32(1965): The Compatibility of Tungsten with MoltenUrania
1746. K. Weigel, Werkstatt und Betrieb 98, 233-7 (1965): Cermetsund Metalle mit keramischem-Anteil
1747. L.S. Wil1iams, in: P. Popper (ed.), Special Ceramies 1964(Academic Press, New York, 1965): Infiltrated OxideCermets
1748. K. Yamamato ~~d T. Wajima, J.Nucl.Sci.Techno1. 2, 200(1965): Influence of Duncoff Effect on TemperatureCoefficient
1966
1749. B.W. Abbott and L. Broutman, Exp.Mech. 6, 383-4 (1966):Stre~Wave Propagation in Composlte Materials
1750. C. Agace, R. Klersy, G. Musso, A. Parisotto, K. Schrader andL. Alfille, Canadi~~ Patent 741,416 (1966): NuclearFuel Element Made of Ceramic Metal Composite Materialand Method for Closing the Ends of the Said Elements
1751. A.C. Allen, Ceram.Ind. 87 (5), 53-9 (1966): The CompositeConcept --
1752. I. Amato, R.L. Colombo and F. Plin, Rev.Hautes Temp. 3,189-96 (1966): Properties of Uranium Dioxide-Molybdenum (Tungsten) Cermets
1753. C.M. Ault, NAFI-TR-688 (1966): Fabrication and Evaluationof Vacuum Deposited Cermet (Cr-SiO) Resistors
1754. Anon., Australian Mach.Prod.Eng. 19 (209), 13-8 (1966):The Physical Properties of-cemented Carbides
1755. Anon., Australian Mach.Prod.Eng. 19 (212), 61, 63 (1966):Machining Cemented Carbide
1756. Anon., BNWL-269 (1966), 5.1-36: Development of AdvancedFuel Concepts
1757. Anon., Electronics 39, 49-50 (Aug.1966): New Techniqueto Produce High-Accuracy Cermet Resistors in MicroCircuits
- 96 -
1758. Anon., GEMP-59A (1966): High Temperature MateI'ials Program1759. Anon.,Machine Design 38, 19 (Dec.1966): New Cermet Igniter
Cleans Auto'sExhaust1760. Anon., Mater.Design Engng 64, 370-2 (Oct.1966): Properties
o~ Materials: Re~ractory Ceramics and Cermets1761. Anon., ResJDevelop. 17, 20-3 (June 1966): Broader Horizons
~or Ceramic-Metal Composites1762. Anon., Steel 158, 60 (March 1966): Ceramics and MetallS
Combined in Turbine Heat Exchanger1763. A. Arias, J.Am.Ceram.Soc. 49, 334-8; 339-41 (19666: Thermal
Shock Resistance of Zirconia with 15 Mole- /0 Titanium; Mechanism by Which Metal Additions ~prove theThermal Shock
1764. A. Arias, J.Am.Ceram.Soc. 49, 621-4 (1966): Effect ofInclusions on Grain~rowth o~ Oxides
1765. G. Arthur, U.S. Patent 3,237,293 (1966): Manufacture o~ Cermets with Metal Members Bonded Thereo~
1766. J. Bardsley and A. Ridal, AAEC-TM-315 (1966): The Fabricationo~ 233 U/Aluminium Fuel Plates for a SubcriticalAssembly
1767. F.R. Barnet, S.P. Prosen and W.J. McLean, Mech.Eng. 88 (2),32-9 (1966): Composite Materials
1768. S. Bartolucci and H.H. Schlossia, Acta Met. 14 (3), 337-9(1966): Plastic De~ormation Preceding~racture inTungsten Carbide-Cobalt Alloys
1769. O.R. Bergmann, Am.Ceram.Soc.Bull. 45, 639-42 (1966): AluminumBonded Titanium Carbide Cermets
1770. A.A Betser and J. Gurland, Progr.Powder Met. 22, (1966),66-MD-I7: Some E~fects of Temperature and HeatTreatment on the strength of Sintered WC-Co Al10ys
1711. W.D. Biggs, in: L. Holliday (ed.), Composite Materials(Elsevier, Amsterdam,1966), Ch.2, 28-64: TheoreticalBackground
1772. L.D. Blackburn et al., NML Techn.J. 8 (1), 45-55 (1966):Metal Matrix Composite Materials
1773. S.A. Bortz, paper: Am.Ceram.Soc., Washington 1966 (Ref. 32C-66): Composite Rocket Nozzles
1774. L. Braun and D.E. Lood, IEEE Pr'oc . 54, 1521-7 (1966):Precision Thin-Film Cermet Resistors for IntegratedCircuits
1775. D.W. Brite, K.R. Sump, U.S. Patent 3,276,867 (1966): CermetMaterials and Process of Making
1776.• E. Bryjak, J. Bujok und Ch. Lesniak, in: Irr. Int.Pulvermet.Tagung, Eisenach 1965 (Akademie-Vlg, Berlin, 1966),269-73: Physikalische und metallographische Eigenschaften von Titankarbid-Stahl-Tränklegierungen
1777. A.S. Buf~erd, in: J. Burke, N. Reed and V. Weiss (eds.),Strengthening Mechanisms: Metals and Ceramics(Syracuse Univ. Press, Syracuse, 1966), 531-48:Preparation of Metal-Oxide Dispersion Composites
1778. B.R. Butcher and L.H. Cope, AERE-M-1804 (1966): The Elongation to Fracture of Unbonded Cermets
1779. B.R. Butcher and B.W. Howlett, AERE-M-1728 (1966); Int.Powder Met. 2 (4), 29-34 (1966): The TheoreticalStrength of Cermets Containing Spheroidal CeramicParticles
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1780. R.J. Car1son, S.W. Porembka and C.C. Simons, Am.Ceram.Soc.Bul1. 45, 266-70 (1966): Explosive Compaction ofCeramic-Materia1s
1781. R.W. Cahn, in: L. Ho11iday (ed.), Composite Materials(Elsevier, Amsterdam, 1966), Ch.3, 65-90: Meta1Systems
1782. B. Cech und I. Kraus, in: 2.Int. Tagung Pulvermet. StarySmokovec 1966, Bd.2, 159-70: Röntgenographische Untersuchungen von Spannungen in WC-Co-Sinterwerkstoffen
1783. G.P.K. Chu, Vortrag: Diskussionstagung Reaktormeta11e,Jülich 1966: Ermittlung der Zugfestigkeit, des E-Modu1s und der Querkontraktion von UO -Mo- und UNStah1-Cermets mit Hilfe des Diametr&ldruckversuchs
1784. W.A. Compton, R.J. Akins and H. Mnew, Soc.Aerospace Mat.Process Eng., San Diego 1966 (C-61/76): Meta1 MatrixComposite Materials for Aircraft Compressor B1ades
1785. R.W. Davies, paper: Am.Oeram.Soc., Washington 1966 (Ref.260-66): Fabrication of Metal Matrix Composites
1786. W. Dawihl und G. Altmeyer, Z.Meta11kde 57 (1), 55-9 (1966):Uber Formänderungsmessungen zur Ermittlung von Eigenspannungen in Hartmetallen
1787. W. Dawih1 und G. Altmeyer, Z.Meta11kde 57, 688-901 (1966):Uber den Einfluß von Kerben und einer Wärmbehandlungauf die Biegeschwe11festigkeit von WC-Co-Legierungen
1788. D.A. Doug1as, BNWL-268 (1966), 17.1-17.10: C1adding andDispersion Fuel Development at ORNL
1789. H. Droscha, Metall 20, 232-4 (1966): Aluminiumoxid-Keramikund ihre Verbindung mit Metallen bei elektronischenBauelementen
1790. E.M. Dudnik, Yu.I. Erosov, V.S. Fomenko, Yu.K. Lapshov, I.A.Podcherniaeva and G.V. Samsonov, Poroshkovaia Met.6,17-23 (1966): Production and Physica1 Properties ofA110ys of the W-LaB6-System
1791. v. Dufek, Abh.Deut.Akad.Wiss.Ber1in 1, 277-84 (1966): DieAnwendung der Reibungstheorie-auf die Weiterentwicklung metallkeramischer Reibwerkstoffe
1792. V. Dufek, A. Navratil and J. Micu1ek, Powder Met. 9 (18),141-50 (1966): Pressure-Sintering of Meta1/CeramicFriction Materials: A Special Process in PowderMetal1urgy
1193. J. Duga, NRO-31-710 (1966): E1ectrica1 and Thermal TransportModels for Analysis of Reinforced Composites
1194. B.J. Eastwood and D.A. Robins, Powder Met 9, 175-84 (1966):The Effect of Partic1e Size and Oxiae Dispersion onthe Properties of Tin Extruded from Powder
1195· K. Edsmar, TZ Prakt.Meta11bearb. 60, 242-6 (1966): Physikalische Eigenschaften von Hartmetallen
1796. R.K. Edwards and A.E. Martin, in: Thermodynamics (IAEA,Wien, 1966), Vol.2, 423-9: Phase Relations in theUranium-Uanium Dioxide System at High Temperatures
1797· H.E. Exner, Metall 20, 448-54 (1966): Experimentelle Untersuchung des Verdichtungs-und Sinterverhaltens einerWolframkarbid-Koba1t-Legierung
1798. H.E. Exner und H. Fischmeister, Arch.Eisenhüttenwes. 37,417-26 (1966): GefügeaU$bi1dung von gesinterten-WCCo-Hart1egierungen
- 98 -
1799. H.E. Exner und H. Fischmeister, Prakt.Metallogr. 3, 18-27(1966): Die Anwendung der Linearanalyse zu-quantitativen Gefügebestimmung
1800. H. Fischmeister und H.E. Exner, Arch.Eisenhüttenwes. 37,499-506, Disk. 506-10 (1966): Gefügeabhängigkeit derEigenschaften von Wolframkarbid-Kobalt-Hartlegierungen
1801. H. Fischmeister, H.E. Exner and G. Lindelöf, in: H.H. Hausner(ed.), Modern Development in Powder Metallurgy (PlenumPress, New York, 1966), Vol.l, 106-24: Particle-SizeAnalysis in Cemented Carbide Technology
1802. D. Fishlock, Metalworking Prod. 110 (33), 58-62 (1966): Com-posite Materials ---
180'. D.E. Fornwalt, B.R. Gourley and A.V. Manzione, in: T.D. MeKinley, K.F. Heinrich and D.B. Wittry(eds.~The ElectmnMicroprobe (Wiley, New York, 1966), 581-603: Compatibility of Selected Refractory Metals with VariousCeramic lnsulation Materials
1804. D.N. French and D.A. Thomas, paper: Met.Soc.AlME, Chicago,1966: Excess Carbon Defects in WC+Co Alloys
1805 N. Fuschillo, M.L. Gimpl and A.D. McMaster, Trans.AlME 236,335-44 (1966): Nichrome-Silicon Monoxide Cermet Resistors for Compatible Thin-Film Monolithic Circuits
1806. W.S. Gilman, MLM-1424 (1966): Packing of Particles1807 M.A. Gimpl and N. Fuschillo, AFML-66-171 (1966): Electrical
Conductors for High Temperatures
1808. J.H. Gittus, TRG-1278 (S), TRG-M-1249 (S) (1966): TheMechanism of Failure in U02/Stainless Steel Cermets
1809. J.H. Gittus, L.R. Williams and G.A. Baily, BP-l,031,678(1966): Improvement in or Relating to Cermets
1810. L.I. Gladnjeva et a1., Poroschkovaja Met. (1966),Nr.5, 67-73:Gefügeentwicklung bei Me-MeO Sinterwerkstoffen durchIonenbeschuß
1811. O. Götzmann und F. Thiimmler, KFK-435 (1966): Vergleich derVerträglichkeit der Kernbrennstoffe UN, UC und U02mit Metallen
1812. J.M. Guiot, Silicates lnd. 31, 363-7; 457-61 (1966): Studyof Cermets Based on SiO. I. Study of Mo-Sie Systems;TI. Study of the Reactions Between SiC and Mo
1813. J. Gurland, NYO-2394-18 (1966): Some Aspects of the Fractureof Metallic Composites
1814. J. Gurland, in: 2.lnt.Tagung Pulvermet., Stary Smokovec 1966,Bd.2, 145-58: Untersuchung der mechanischen Eigenschaften von Sinterhartmetallen mit hohem Co~Gehalt
1815. H. Guttmann and T.E. HaIe, Progr.Powder Met. 22 (1966),66-MD-80: Compressive Properties of Cemented Carbides
1816. H.H. Rausner, in: G.L. Clark and G.G. Raw1ey, The Enoyclopedia of Chemistry (2nd e d , , Reinhold, New York, 1966),202-4: Cermets
1817. C. Hausser, G. Ondracek, Prakt.Metallographie 3, 112-5(1966): Metallographische untersuchungen an MetallKeramikschichten
1818. T. Hayashi, Taikabutsu 18, 538-47 (1966): Penetration ofEutectic Minera1S-in Chrome Magnesite and MagnesiteRefractories
- 99 -
1819. N.L. Hecht, paper: Am.Ceram.Soc., Washington 1966 (Ref. 23C-66), CONF-660 505-13; AED-CONF-66-103-22: PlasmaSprayed Metal-Ceramic Coatings
1820. C.J. Helgesson, Trans.Chaliners Univ. (1966), Nr. 311, l-108;109-21: Bonding Mechanism Between Metals and Ceramies
1821. R.J. Herbst and K.R. Jordan, Trans.Am.Nucl.Soc. 9 (1),12(1966): Compatibility of Modifi~ Monocaroide Fuelswith Stainless Steel
1822. K. Hino, A. Hara and S. Kurata~ J.Japan Inst.Met. 30, 603-5(1966): Co-Phase Composition in WC-Ce-Cemen~dCarbides
1823·R.L. Hodsan and N.M. Parikh, Int.J.Powder Met. 2 (4), 55-63(1966): Cemented Carbides with High-Melting Binders.I. Carbides Bonded with Cr and Valloys
1824. L. Holliday (ed.), Composite Materials (Elsevier, Amsterdam,1966)
1825. L. Holliday,in: L. Holliday (ed.), Composite Materials(Elsevier, Amsterdam, 1966), Ch.l, 1-27: GeometricalConsiderations and Phase Relationship
1826. F. Huber, W. Witt and W.Y. Pan, Trans.lnt.Vacuum Congr. 1965(New Yoek, 1966), 359-61: Hf-Hf02 Capacitors
1827. Res.lnt., NOw-65-0271-f (1966): Deformation and Fracture inComposites
1828. Y. Imai and T. Miyazaki, Tohoku Univ.Sci.Rep.Res.lnst.A-18 (1966),Nr.2, 59-64: Selbstdiffusion in Ag-A120 3
1829. V.I. lvanec et al., Fiz.Chim.Mechan.Mat. 2, 656-60 (1966):Einfluß des Diamantschliffes auf dTe Eigenschaftenvon WC-Co-Hartmetallen
1830. D.R. James, paper: Ceramic Metal Systems, Oak Brook 1966,(Ref.16-C-66F): Role of Refractory Thermal ProtectionSystems in Bal1istic Reentry
1831. S. Janes, M. Kadner, H.G. Kling, D. Merz, W. Oberender undK. Schuster, BMwF-FBK-66-28, Teil 1 (1966): Herstellung und Untersuchung von karbidischen Heizern füreinen mit Kernenergie betriebenen thermionischernKonverter
1832. G.H. Jahnson, Ceramic Metal Systems and Enemel Bibliography and Abstracts-1965 (Am.Ceram.Soc., Columbus,1966)
1833. A. Kelly, G.C. Smith., P.J.E. Forsyth and A.I. Kennedy(eds.), Composite Materials (llife Books, London,1966)
1834. R.W. Kel1y, G.M. Wood and D.V. Manfredi, Lubrication Eng.22(2), 41-9 (1966): Cermet Face Seals for Inert Gas -Environments
1835. J.P. Kershaw and L.A. Shepard, AD-638 621 (1966): BrittleFracture Mechanisms in Composites
1836. T. Kido, Japanese Patent 1966-9998 (1966): Method forProducing U-UC Cermets
1837. R. Kieffer, Vortrag: 12. Arlberg -Kolloquium, St.Christoph,1966: Kornwachstum in WC-Co- Hartmetallen
1838. P.S. Kislyi and M.A. Kuznekova, Sov.Powder Met.Metal Ceram.(1966), No.5, 360-5: Regularities of Sintering ofZirconium Diboride-Molybdenum Al10ys
1839. S. Kiss, Nukl.Energijy Kroat. 2 (5), 9-14 (1966): Physiochemische Gesichtspunkte der Cermet-Herstellung
1841.• H.
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1840. S.J. Kiss and M.M. Ristic, in: Thermodynamics (IAEA, Wien,1966), Vol.2, 511-6: Thermochemistry of Reactionsin the System U
308-U02-MetalKonno, K. Kudaka, T. Matoba and M. Ando, Jap.lnst.
Metald J. 30, 1063-8 (1966): Effect of Pressingwith High-Pressures Apparatus on WC-Co Hard Metals
Korman, NASA-SP-5060 (1966); N67-13511: Some New Metaland Metal-Ceramic Composites
Kraft and J. Schlamer, U.S. Patent 3,233~985 (1966):Method for the Produetion of an Improved MetallCeramic Material and Artieles
Kramar, Vide 21, 402-4 (1966): Metal Ceramic JointsKraus, Pakroky Praskove Met.(1966), Nr.4,43-59: Theo
retisches Gefügemodell von WC-Co-Hartmetallen1846. W.W. Kriegel and H. palmour (eds.), Mater.Sei.Res. 3 (Plenum
Press, New York, 1966): The Role of Grain BOUndaryand Surfaces in Ceramies
1847. 0. Kubaschevski, Rev.Hautes Temp. 3, 229-34 (1966): Thermoehemistry of Metal-Refraetory lnteraetions
1848. J.D.B. Lambert, paper: High Temp.Nuclear Fuels, AlME,Delevan 1966: An Irradiation Study of UO?-StainlessSteel and puO?-Stainless Steel Cermet Fuel in Rodand Plate Geometry
1849. H.D. Lewis and A. Goldman, J.Am.Ceram.Soe. 49, 323-7 (1966):Theorems for Calculation of Weight Ratios toProduce Maximum Paeking Density of Powder Mixtures
1850. D.E. Lloyd, in: L. Holliday (ed.), Composite Materials(Elsevier, Amsterdam, 1966), Ch.4, 91-128: CeramicSystems
1851. S.N. Lvov, P.I. Malko and U.F. Nemtschenko, PoroschkovajaMet. (1966),Nr.9, 89-91: Apparatur zur Bestimmungder Wärmeleitfähigkeit von Cermets
1862. R.D. MacDonald, AECL-2601, IEXP-NRX-23 503 (1966): InitialResults of the ln-Feactor Compatibility of Uraniawith Refractory Metals
1853. F.J. McGarry, Exp.Mech.6, 331-6 (1966): Composite StructuralMaterials -
1854. D.F.A. MaeLachlan, G. Planer and R. Arnold, Ceramies 17(209), 30 (1966): Resistance Temperatures of Cr-Si-OCermets
18B5. C.R. Manning, Diss.North Carolina State Univ. Raleigh 1966:Thermochemieal, Compatibility and WettabilityStudies of High-Temperature Molybdenum-RheniumBase Cermets
1856. D. Markowitz and M. Humenik jr., in: H.H. Hausner (ed.),Modern Developments in Powder Metallurgy (PlenumPress, New Yoek, 1966), Vol.3, 83-94: CementedTitanium Carbide Cutting Tools
1857. R.E. Maringer, AD-640 465 (1966): Damping Capacity ofMaterials, Vol.I
1858. A. Matting und B. Delventhal, Metalloberfl. 20, 424-34(1966): Das Plasmaspritzen und die Herstellbarkeitwärmedämmender Sehutzschichten auf Stahl
1859. H. Matsumoto, S. Yamauchi and G. Nishiyama, Nagoya KogyoGijitsu Shikensho Hokuku 15, 61-8 (1966): Alumina-base Cermet . --
- 101 -
1860. K.R. Merckx, Trans.ANS 9 (2), 381-2 (1966): Axial Expansionof Cermet Rods During Reactor Transients
1861. E.D. Miller and B. Davies, Am.Ceram.Soc.Bull. 45, 710-3(1966): Modulus of Rupture of Refractories atElevated Temperatures
1862. R. Mitsche, H. Fischmeister und H.E. Exner, Berg-Hüttenmänn.111, 138-46 (1966): Mikrogefüge und Eigenschaften vonWC-Co-Hartmetallen, ihre gegenseitige Beeinflussungund Abhängigkeit von den Ausgangspulvern
1863. A. Miyoshi, K. Hino, A. Hara and S. Kurata, Nippon KinzokuGakkai Shi 30, 603-6 (1966): Cobalt Phase Compositionin WC-Co Cemented Alloys
1864. M. Nicholas, R. Forgan and D.M. Poole, AERE-R-5285 (1966):The Adhesion of Metal-Alumina Interfaces
1865. L.F. Norris, NASA-TN-D-3650(1966): Examining MaterialsContaining Oxide Particles
1866. G.C.E. 01ds, Science J. 2 (8), 58-64 (1966): New Ceramies1867. G. Ondracek, Vortrag: Metallographie-Tagung, Berlin 1966:
Zur metallographischen Präparation von Keramik-undCermetproben
1868. G.P. Pancer, R.B. Holden and D.H. GUJ'.'insky, CONF-66-1003-5:Studies on a Fuel for an Ordered Bed Reactor
1869. H. Parthey and B. Kanellakopulos, Nukleonik 8, 363-5 (1966):Chlorination of U02-MO Sintered Pellets
1870. J.A. Pask, paper: Ceramic Metal Systems, Oak Brook 1966(Ref. 2-C-66F): Reactions and Bonding at GlassMetal Interface
1871. R.L. Pezner and F.Ya. Kharitonov, Inorganic Materials 3(3), 490, 568 (1966): Method of Strength Testing forCeramic Materials
1872. Y.S. Pirogov, R.M. Brown and A.L. Friedberg, Bull.Am.Ceram.Soc. 45, 1071-4 (1966): Electrical Propertiesof A1203-Ni-.-Metal
Multilayer Flame-Sprayed Coatings18~3. P. Popper and N.F. Astbury, Rev.Hautes Temp. et Refract. 3,
185-8 (1966): Electrode-Dielectric Interactions atHigh Temperature
1874. D.E. Price, D.P. Moak, W. Chubb and D.L. Keller, BMI-1760(1966): The Compatibility of Uranium Nitride withPotential Cladding Metals
1875. I.D. Radomyselsky and N.I. Schtscherban, PoroschkovajaMet. (1966), Nr.ll, 17-22: Untersuchung des Sinterprozesses von Metall-Glas-Materialien
1876. I.D. Radomyselsky and N.I. Schtscherban, Sov.Powder Met.Metal Ceram. (1966), No.4, 297-301: Relations inthe Pressing of Two-Component Cermet Materials
1877. A.I. Rajcenko, in: 2.Int. Tagung Pulvermet., Stary Smokovec1966, Bd.l, 153-64: Uber den Zusammenhang zwischender chemischen Zusammensetzung und den physikalischenEigenschaften bei metallkeramischen Legierungen
1878. P.A. Rebinder (ed.), Physiochemical Mechanics of DispersedStructures (Nauka Press, Moscow, 1966)
18,79. R.H. Redwine and M. Conrad, Pr-oc , 3rd Symp. on Materials,Univ. of California 1966: Ceramic MicrostructuresTheir Analysis, Significance and Production
1880. G. Reinhardt, W.S. Cremeus and J.W. Weeton, NASA-TN-3511(1966): Compaction of Metal-Dispersed Blends
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1881. L.A. Retznitzki, Inorganic Mater. 6 (6), 811, 953 (1966):Nature of Bond and Thermodynamic Properties ofTransition Metals and Metal-Like-Component
1882. R.K. Robinson and K.R. Sump, BNWL-SA-482 (1966): Fabricationof Refractory Composites by Pneumatic Impaction
1883. W. Rutkowski and W. Sztoke, Inst.Nucl. Res.Warsaw Rep.INR-751/XIV/R (1966): Powder Dispersion Materialsfor Rector Physics Measurement
1884. W. Rutkowsk, W. Sztoke and M. Wiszorkowski, Inst.Nucl.Res.Warsaw Rep.INR-728/XIV/R (1966): Some CoextrusionExperiments of Aluminium Cladded Cermetallic Core Rods
1885. D.S. Rutman, L.V. Vinogradov and T.S. Makarova, VysokoOgneupor.Mat.Sb.Statei (1966), 72-81: Schutzkeramikenfür Hochtemperatur-Thermoelemente
1880. K. Schuster, DLR-Mitt.-66-07, 69-71; BMwF-K-66-08 (1966)1Hochtemperaturtests an mit Wolfram umhüllten U02-MoCermets für thermionische Reaktorbrennelemente;W-plattierte Mo-U02-Sinterkörper
1867. V.P. Shishokin, Trudy Leningrad Politekln Inst. (1966),268, 5-7: The Relation Between Hardness and Composition of Mechanical Mixtures
1888. A. Simpson, AD-637 573 (1966): Macrolaminate ParticleComposite Material Development
1889. B.S. Skidan, D.N. Polubojarinov and A.S. Vlasov, in:Hochwarmfeste Werkstoffe (Metallurgija, Moskau,1966), 221-4: Gesinterte Cermets auf A1203-Grundlage
1890. B.S. Skidan, A.S. Vlasov and D.N. Polubojarinov, MendeleevInst.Chem.Technol. (Moskau) 50, 213-5 (1966):Kerbschlagzähigkeit von Cermets des Systems A1203Metall
1891. E.A. Snajdr, paper: Am.Ceram.Soc., Portland 1966 (Ref. 19N-66F): Mechanical Properties of Brittle and DuctileMetal Matrix Cermet Fuels
1892. N. Soga and O.L. Anderson, J.Am.Ceram.Soc. 49, 318-22(1966): Simplified Method for Calculating ElasticModuli of Ceramic Powder from Compressibility andDebye Temperature Data
1893. W.H. Sutton, AD-477 422,-630 359 (1966): Role of Interfacein Metal-Ceramic Compositions
1894. W.H. Sutton,paper: Ceramic Metal Systems, Oak Brook 1966(Ref. 6-C-66F): Role of Adhesion-Wettability in theComposite Structure
1895. H. Suzuki, Trans.Japan Inst.Met. 7, 112-7 (1966); J.JapanSoc.Powder Met. 13, 243-7 T1966): Effect of ParticleSize and Binder Composition on Properties of WC-CoAlloys
1896. H. Suzuki and H. Kubota, Planseeber.Pulvermet. 14, 96-109(1966): The Influence of Binder Phase Compositionon the Properties of WC-Co Cemented Carbides
1897. H. Suzuki, M. Sugiyama and T. Yamamoto, Nippon KinzokuGakkeishi 30, 367-71 (1966); CA-65, 8485: Propertiesof WC-Co AIToys
1898. H. Taketani and J.L. Arnold, RFP-658 (1966), 124-36:Failure Analysis of Thermionic Emitters
T899-; L-S. Tetelman, ---mrsA~UR~f45T-C~6-6-)T-~nanism-l:fIS-trengthening and Fracture in Composite Materials
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1900. M.K. Thomas, AD-651 191 (1966): Metal1ic-Ceramic and Intermetallic Compounds by the Floating Zone Technique
1901. H.R. Thornton, J.E. Burrough, paper: Am.Ceram.Soc.,Washington 1966 (Ref. 29-C-66): Composite Structuresa ceramic-metal system
1902. V.I. Tumanov, Z.A. Gol'dberg, V.V. Cheryshev and Z.I.Pavlova, Sov.Powder Met.Metal Ceram. (1966),No.lO,818-22: Thermal Shock Resistance of Tungsten CarbideCobalt Al10ys
1903. R.Z. Vlasjuk, I.D. Radomyselski, Poroschkovaja Met. (1966),Nr.lO, 11-5: Einfluß des geometrischen Faktors beiCermets auf die elastische Nachwirkung
1904. M.E. Waddoups and P.D. Shockey, paper: Ceramic Metal Systems,Oak Brook 1966 (Ref. 8-C-66F): Sandwich Beam Tests
for Determination of Strength and Modulus of CompositeMaterials
1905. J. White, Advances in Materials (Pergamon, London, 1966),195-202: New Ceramies and Refractories
1906. J.E. White, Int.J.Powder Met. 2 (3),19-26 (1966):Alloying-Element/Dispersed-Phase Interactions inTungsten-Base Al10ys
1907. Ch. Wiek, Machinery (EngI.) 109, 1228-35 (1966): CeramicCuttIng Tools ---
1908. W. Wood, PrcTchInst.Mech.Eng. 180, Pt 3 D, 193-9 (1965-66):Ceramic-Metal Composite--Nucerite
1909. T.R. Wright, R.J. Diersing and D.C. Carmichael, paper:Ceram.Soc., Washington 1966 (Ref. 24-C-66): CeramicCoatings for High-Temperature Protection of RefractoryMetal Shapes
1910. J.A. Yoblin, Soc.Aerospac.Mat.Process Eng., San Diego 1966(F-71/89): New Techniques for Making High TemperatureComposite Materials
1911. L. Zagar und W. Bernhardt, Forschungsber.Landes NordrheinWestfalen Nr.1733 (Westdeutscher Verlag, Köln, 1966):Beitrag zur Frage der Bindefähigkeit ver-schiedenerMetalle mit Nichtmetallen als Grundbedingung beider Her-stellung von Cermets
1912. F. Zimmer, U.S. Patent 3,284,,74 (1966): Composite StructuresMade by Bonding Ceramies, Cermets, Alloys, HeavyAlloys and Metals of Different Thermal ExpansionCoefficient
19l3. G.I. Zuravlev, Poroschkovaja Met. (1966), Nr.lO, 36-43:Temperaturstabilität von keramischen Uberzügen aufMetallen
1914. G.M. Adamson, J. Binns and R.W. Knight, Trans.Am.Nucl.Soc.lO, 124-5 (1967): Production of High-FluxIsotope Reactor Fuel Elements
1915. G.B. Alexander, S.F. West and P.C. Yates, U.S. Patent3,310,400 (1967): Process of Making Metal PowderCompositions wherein Some Metal Grains Contain Dispersed Refractory Metal Oxide Partioles
1916. M.A. Ali, W.J. Knapp and P. Kurtz, Am.Ceram.Soc.Bull. 46,275-7 (1967): Strength of Sintered Speoimens Containing HollowaGlass Miorospheres
- 104 -
1917. I. Amato, Energ.Nucl. 14, 730-2 (1967): CompatibilityStudies in U02-Nb (Ta)-H System
1918. I. Amato and L. Ardizzone, Rev.lnt.Hautes Temp.Refract. 4,199-204 (1967): Preparation of U02-Nb(Ta) Cermet Fuel by Metal Vapor Deposition in Fluidized Bedand Hot Pressing
1919. I. Amato and L. Ardizzone, Rev.lnt.Hautes Temp.Refract.4,297-302 (1967): Preparation of UO -Mo and UO -W Cermets Fuel by Metal Vapor Deposftion in Fl~idizedBed and Hot Pressing
1920. P.B. Anderson, Planseeber.Pulvermet. 15, 180-6 (1967):Hartmetalle erhöhter Zähigkeit--
1921. Anon., AD-651 191 (1967): Metal-Ceramic and IntermetallicCompounds by the Floating Zone Technique
1922. Anon., lVlater.Engng 38, 51 (Feb.1967): Properties ofMaterials: Refractory Ceramics and Cermets
1923. Anon., Metal Progr. 91 (5), 69-75 (1967): Fight againstWear Starts with Material Selection
1924. Anon., Pamphlet: Climax Molybdenum Comp., New York 1967:The Use of Molybdenum in TiC-Base Cermets
1925. Anon., Product Engng 38, 51 (Feb.1967): Bearings inHypersonic Flight May Be Made from Ceramics
1926. P.B. Anderson, Planseeber.Pulvermet. 15 (3), 180-6 (1967):Cemented Carbides of Increased Toughness
19'27. A.A. Appen, in: Heat-Resistant Coatings, 1-38 (1967):Fundamental Principles Underlying the Productionof Inorganic Heat-Resistant Coatings
19'28. A.J. Artamanov, A.N. Ivanov and V.N. Rudenko, PoroschkovajaMet. 7 (9), 84-7 (1967): Polieren von Cermets mitDiamanten
1929. A.J. Artamanov and V.I. Kononenko, Poroschkovaja Met. 1 (7),92-9 (1967): Schnittkräfte beim Zerspanen vonCermets
1930. A.J. Artamanov and L.S. Schischkin, Poroschkovaja Met. 7(12), 84-8 (1967): Einfluß der Schleifbedingungenauf die Oberflächenrauhigkeit und Oberflächendichtevon Cermets
1931. A.I. Avgustinik, I.L. Gandelsman und L.V. Gorfunkei, Zur.Prik1.Chim. 40, 2684-90 (1967): Leitfähigkeit gesinterter GemIsche (A120 3-W)
1932. W. Baehr, KFK-573 (1967): Dissolution of U02-MO Fuel Cores193~ J. Bardsley and A. Ridal, AAEC-TM-404 (1967): Fabrication
of U02-Al Fuel Plates1934. L.K.H. van Beek, in: J.B.Birks (ed.), Progr. in Dielectrics
(Reywood, London, 1967), Vol.7, 69-114: DielectricBehaviour of Heterogeneous Systems
19 35. J .H. Bender, CONF-67 0533, 131-8 (1967): Metallographyof.Pyrolytic Carbon and/or Tungsten-Coated UraniumOx~de and Uranium Carbide Fuel Spheres
1936. R. Benz, paper: Am.Ceram.Soc., New York 1967 (Ref. 34-N-67;CONF-67 0533, 84-91: Thorium-Thorium Dioxide PhaseEquilibric
1937. J. Beynon ~d K~ Head, J.Sci.lnstrum. 44, 313-5 (1967):Fabr~cat~on of Cermet Resistors-Using a RejectionMask Technique
- 105 -
1938. S.W. Bradstreet, paper: Am.Ceram.Soc.Bull. 46 (8), 777(1967): The Kingdom of Composites
193~ J.G. Brady, Can.Min. and Met.Bull. 60, 1397-402 (1967):Glass, Clay Products and Ceramic-Metal Systems
1940. E.A. Brandes and D. Goldthorpe, Metallurgia 76, 195-8(1967): Electrodeposition of Cermets --
1941. P. Brenner, Z.Metallkde 58 (9), 585-600 (1967): Standund Aussichten hocnfester Verbundwerkstoffe
1942. L.J. Broutman and R.H. Krock (eds.), Modern CompositeMaterials ( Addison-Wes~ey PubI., Reading, 1967)
1943. C.B. Brown and N. Mostaghel,J.Mater. 2 (1), 120-30 (1967):Modulus and Strength of Reinforced Matrices:Critical Values of Inclusion Concentration
1944• D.A. Bruhl and W.E. Counts, U.S. Patent 3,326,720 (1967):Cermet Resistance Composition and Resistor
1945. V.J. Bulanov, V.N. Nebolsinov and V.E. Saparov, PoroschkovajaMet. 7 (7), 1-6 (1967): Graphische Errechnung derZusammensetzung von Mehrstoff-Cermets
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2028. L.T. Lakey and W.B. Kerr, Ind.Eng.Chem.Process Design 6,774-9 (Apr.1967): Pilot Plant Development of anElectrolytic Dissolver for Stainless Steel AlloyNuclear .J.iuels
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2032. C.H. Lane and J.P. Farrell, AD-648 018 (1967): Reactive1ySputtered Cermet Resistors
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2042. R.D. MacDonald, AED-Conf. 67-226-014 (1967): ThermoelectricNuclear Fuel Elements
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2046. R.Ch. Manning, papers: Am.Ceram.Soc., New York 1967(Ref. 17-S1-671 18-S1-67): High-Temperature Cermets.I. Compatibi1ity Studies; JL Wetting and FabricationStudies
2047. T.P. Marcho1ja, B.F. Judin and N.I. Voronin, Chim.Vyso~
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2056. A. Miyoshi, A. Hara and Y. Sugimoto, Planseeber.Pulvermet. 15 (3), 187-96 (1967): An Investigation ofCrackS-around Vickers Hardness Indentation inCemented Carbides
2057. I.L. Mogford, Met.Feviews 12, 49-68 (1967): The Deformationand Fracture of Two-Phase Materials
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2109. M.J. Strief, L.I. Peart and S. Schneider, U.S. Patent3,324,440 (1967): Cermet Resistance Elements andTerminal and Tap Connections Therefor
2110. G. Strohmeier, K. Sedlatschek und E. Pipitz, Vortrag:Feuerfeste Baustoffe in der Eisenhüttenindustrie,Leoben 1967: Metallkeramische Werkstoffe in derEisenindustrie
2111. H. Suzuki, I. Yamamato and K. Hayashi, J.Japan.Soc.PowderMet. 14 (6), 262-66 (1967): Phase Transformationof Binaer Metal in Cemented Carbides
2112. H. Suzuki, T. Yamamato and I. Kawakatsu, J.Japan Soe.Powder Met. 14, 86-91 (1967): Effeet of Carbonon the Properties of WC-I0Fe/Co Cemented Carbides
2113. T. Takahashi, K. Sugiyama and K. Tomita, J.Eleetroehem.Soc. 114, 1230-5 (1967): Chemical Vapour Depositionof Titanium
2114. A.S. Tetelman and A.J. McEvily, Fracture of StructuralMaterials (Wiley, New York, 1967), 635-64:Composite Materials. 650-64: The Fraeture of Cermets,
2115. J.W. Thie~ann, paper: Am.Ceram.Soc., Pacific Coast Meet.,San Francisco 1967: Process Controls for HighRe1iability Ceramäc-to-Metal Seals
2116. M.K. Thomas, AD-651 191 (1967): Metal1ic-Ceramie Materials2117. F. Thümm1er and W. Thomma, Met.Reviews 12, 69-108 (1967):
The Sintering Process --2118. A.G. Todd and J.S. Stafford, AEI Eng. 7 (3), 154-8 (1967):
The Deve10pment of Cemented Caroides2119. Y.S. Touloukian (ed.), Thermophysical Properties of High
Temperature Solid Materials (McMi11an, New York,1967), Vol.6/~ 727-935: Cermets
2120. V.T. Troschtsehenko, Poroschkovaja Met. 7, 84-90 (1967):Haltbarkeit von Cermets -
2121. A. Veld op Het und P. Bogers, Prakt.Metallographie 4,235-9 (1967): Eine Präparationsmethode zur Gefügeentwicklung von Hartmetallen
2122. R.C. Vickery, U.S. Patent 3,343,985 (1967): Cermet ~lectri~cal Resistance Material and Method of Using thesarne
2124. J.B.
2125. M.B.
2126. M.D.
2127. G.J.
2128. J.F.
Vincent, Ceram.lnd. 89, 59-62 (July 1967)~ CerarnicIndustry Composites: Glass Cerarnic Coatings Expandinto Commercial Field
Wachtman, Ceram.Soc.Bull. 46 (8), 756-74 (1967):Mechanica1 Properties of-ceramics (An IntroductorySurvey)
Waldron, Powder Met. 10 (20), 288-306 (1967): TheProduction of Cermets Containing a Relatively LargeAmount of Dispersed Phase
Weisinger, paper: Met.Soc.AlME, Cleveland 1967:Machining of New Composite Materials
Weldrick, A.J. Wood, D. Crossley et al., AERE-R-5617(1967): The Determination of Ruthenium in UraniumCarbide-Ruthenium and Plutonium Carbide/UraniumCarbide-Ruthenium Cermets
White, AEC Fuels and Materials Development Program,GEMP-69 (1967), 135-48: Physico-Chemica1 Studiesof Clad U02 in Potential Meltdown Environments
- 114 -
2129. D.I.I. Williams and A.P. Greenough, Powder Met. 10 (20),318-25 (1967): A Thermal-Etching Study of~heNickel/Alumina Interfaoe
21~O. R.V. Williams, Eng.Digest 28 (1), 67-9 (1967): Progressin Composite MateriäIs
2131. Winkenbaoh and Heidtmann, BBC-Naohr. 49, (1967): Untersuohungen an bestrahlten mit Uö2 gefüllten MoEmittern
2132. E.G. Wolff, ASTME-TP, No. EM-67-687 (1967): CompositeFabrioation Teohniques
21~3. A.J. Wright and R.C. Vickery, U.S. Patent 3,324,439 (1967):Eleotrioal Terminations for Cermets neslstanceElements
2134. B.J. Zelechowski, IEEE Trans. on Electron Devices, Völ.14,paper 859 (1967): Thermionic Cermet Cathode Emissionat High Temperatures Produced by Parallel ElectronBeam Bombardment
1968
2135. G.M. Adamson jr., ORNL-4370 (1968), 101-15; 161-4: FuelElement Fabrication Development; Assistance inResearch Reactor Core Procurement
2136. J.A. Alexander, Mater.Engng 68 (1), 58-63 (1968): FiveWays to Fabricate Meta! Matrix Composite Parts
2137. I. Amato, L. Ardizzone and V. Crisa, Rev.Int.Hautes Temp.R~fract. 5, 117-8 (1968): Phenomenological Aspectsof Cosintering U02-W Oermets
2138. U. Amato, R. Ooselli, Met.Ital. 60, 155-8 (1968):Preparation and CharacteriZation of Cermets(Stainless Steel-U02)
2139. Anon., BP-l,137,493 (1968): Oxide Containin~Products andProcess for Manufacturing Them
2140. Anon., Eleotronics 41, 70 (11 Nov.1968); Oermet ResistorLadder NetworKs
2141. Anon., Mater.Eng. 68 (2), 30-2 (1968): Improved OementedCarbides Reauoe Wear and Corrosion
2142. Anon., Mater. Eng. 68 (10), 63 (1968): Tough Cermet OoatingGains Many New Uses
2143. Anon., Mater.Eng. 68 (10), 298-300 (1968): Properties ofMaterials: ~fractory Ceramios and Cermets
2144. Anon., Reactor Materials 11 (3), 191 (1968): Special Fabrication TeohniqueS-
2145. E.A. Antonova, L.A. Kuznetsova, L.M. Vsesvyatskaya andG.N. Borovkov, Temperature-Stable Proteotive Coatings(Nauka Press, Leningrad, 1968): Data on the Resistanoeof Cermet Coatings to Abrasion
2146. A.A. Appen, Temperature-Stable Proteotive Coatings (NaukaPress, Leningrad, 1968): Shock-Resistant CermetCoatings on Steel
2147. S.B. Artoluooi-Luyokx, Acta Met. 16, 535-44 (1968):Microscopic Aspects of Fracture in WC-Co Alloys
2148. J.C. Banerjee, S.P. Banerjee and N.R. Sircar, Rev.Int.Hautes Temp.R'fract. 5, 63-8 (1968): High-TemperatureThermal Expansion of Magnesite and Chrome-MagnesiteBrioks
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2149. P. Batzies, J. Demny, H.E. Schmid und R. Zö11er, BMwF-FEK-68-25 (1968): Entwicklung von Emittern für thexmionische Reaktor-Brennstoffelemente
2150. A.L. Bax1ey, N.C. Nahas and J.R. Couper in: D.R. F1ynnand B.A. Peavy jr. (eds.), Thermal Conductivity(Nat.Bureau of Standards Special Pub1ication 302,Washington, 1968), 685-94: Thermal Conductivity ofTwo-Phase Systems
2151. R.G. Be1yanina et a1., EUR-4210 f,e (1968), 655-70:Insulating Materials of ThermOemission Convertes
2152. R. Benz and M. Tinkle, J.E1ectrochem.Soc. 115 (3), 324(1968): Uranium-Uranium Monoarsenide Phase Diagram
2153. A.L. Berg and D.E. Lood, Solid-State E1ectronics 11, 773-8(1968): Effects of Laser-Adjustment on Cr-SIO ThinFilms
2154. C.S. Beroes and H.D. Hatters, in: D.R. F1ynn and B.A. Peavyjr., (eds.), Thermal Conductivity (Nat.Bureau ofStandards Special Pub1ication 302, Washington, 1968),721-8: The Measurement of the Effective ThermalConductivities of WeIl-Mixed Porous Beds of Dissimi1arSolid Partic1es by Use of the Thermal ConductivityProbe
2155. J. Beynon and K. Head, Thin Solid Films 1, 388-92 (1967/68):A Phenomenon Associated with the Abrasion of Cr-SiOCermet Resistors
2156. J. Beynon et al., E1ectronic Eng. 40, 685-7 (1968): Designand Fabrication of a Thin-FIIm Starvation Amp1ifier
2157. D. Biedermann, Diss.Techn.Hochschule Aachen 1968: Berechnung der instationären mikroskopischen Temperaturverteilung in Matrixbrennstoffele~entenmit Hilfeeines duplizierten ~ifferenzenvertahrens
2158. J.J. Bikerman, The Science of Adhesive Joints (2nd ed.,Academic Press, New York, 1968)
2159. J. van den Boomgaard, Philips Res.Rept. 23 (3), 270-80(1968): System Cr-SiC
2160. S.A. Bortz, paper: Cerarnic Metal Systems, Fort Worth 1968(Abstr.5-C-68F): Structura1 Ceramic CompositeSystems
2161. D.A. Bruh1 jr. and W.E. Counts, U.S. Patent 3,386,165(1968): Method of Making Cermet Resistance Elementsand Terminal Connections Therefor
2162. E.F. Brush and C.M. Adams, We1ding J. (1968), 106s-14s:Vapor Coated Surfaces for Brazing Cerarnies
2163. P.P. Budnikov, N.V. Shishkov and N.V. Shubina, Zur.Vsches.Chim.Obsch. 13, 122-9 (1968): Deve10pment ofComposite Materials Based on Oxides and Metals
2164. H. Bumm, F. Thümm1er und P. Weimar, Vortrag: 2.Int.Europ.Symp.Pulvermeta11urgie, Stuttgart 1968 (paper 4.12):Herstellung und Eigenschaften von Cermets mitidealisiertem Gefüge durch isostatisches Heißpreßenbeschichteter Teilchen
2165. H. Bumm, F. Thümm1er und P. Weimar, KFK-708 (1968), Ber.Deut.Ker.Ges. 45, 406-12 (1968): IsostatischesHei ßpre ßen - einneues Verdichtungsverfahren derPulvermetallurgie
2166. J. Burbach, Techn.Mitt. Krupp Forschungsber. 26 (2), 71-80(1968): New Investigations into the P1astic Behaviour and Fracture of Hard Metals
- 116 -
2167. C.A. Burgess, U.S. Patent ',404,200 (1968): Method ofPreparing a Cermet Nuc1ear Fue1
2168. A.L. Burykina, Temperature-Stab1e Protective Coatings(Nauka Press, Leningrad, 1968): Zirconium Carbideand Niobium Carbide Coatings on Niobium, Tanta1um~
Mo1ybdenum and Tungsten2169. B.R. Butcher and L.H. Cope, Int.J.Powder Met. 4 (4), 49-57
(1968): The Elongation to Fracture of UnbondedCermets
2170. R.J. Buzzard, NASA-TM-X-1625 (1968): High-Temperature CreepRupture Properties of a Tungsten-Uranium DioxideCermet Produced from Coated Partiales
2171. V.N. Bykov et a1., EUR-4210 f,e (1968), 761-72: Investigationof Diffusion Interaction and Structura1 Stabilityof Cathode Material
2172. Ch.V. Cag1e, Adhesive Bonding Technigues and App1ications( McGraw-Hill, New York, 1968)
217'. J.D.T. Capochi, S.H.L. Cintra and E.F. Gentile, Meta11urgiaABM 24, 201-12 (1968): Fabrication of F1at FuelElements Having Cermet Cores ( 65% U,08-A1)
2174. C.M. Cappe11etti, C.A. Busse and E.A. Dörre, EUR-4210 f,e(1968t 61~-32: Metal-to-Ceramic Seals for ThermionicConveflter$
2175. F.L. Car1sen and D.G. Dryer, Int.J.Powder Met. 4 (4), 31-7(1968): Powder Metallurgy Wear Resistant-Alloys
2176. H.G. Car1son, G.A. Brown, V.H. Harrap, D.L. Dugger and R.J.Porebsting, NASA-CR-97 459 (1968): Deve10pment ofSilicon Nitride and Cermet Resistors for Use in aBinary Counter, Meta1 Insulator Fie1d EffectTransistor Circuit
2177. H.W. Carpenter, G.Y. Onoda and S.D. Brown, paper: CeramicMetal Systems, Forth Worth 1968 (Abstr.24-C-68F):Evaluation of Slurry App1ied Heat Barrier Coatingsfor Rocket Engine App1ications
2178. J. Chorne et al., AD-665 810 (1968): Composite StructuralMaterial for High Temperature App1ications
2179. N. Claussen, BMwF-FB K-68-24: Zur Untersuchung der mechanischen Eigenschaften von keramischen. und metallkeramischen Reaktorwerkstoffen
2180. V. Coen and H. Kolbe, AED-Conf. 1968, 142-002: Compatibilittatra i1 carburo di uxanio 1eggermente aovraatechiometrico ed i metal1i refrattari tantalio, niobio,molibdeno, ne1 campo di temperature 1200-16000C
2181~ W.B. Crandal1 and E.E. Kipfer, paper: Am.Ceram.Soc.,Chicago 1968 (Ref. 9-C-68): Thermal Shock Resistanceof Ceramic-Meta1 Composites
2132. I. Crive11i-Visconti, Met.Ital. 60, 548-52 (1968):Characteristics and Use o~Metal1ic Composites
2183. J.E. Cuevas, J.Comp.Mat. 2, 113 (1968): Effective ModuliCa1culations of Isotropie Composites
2184. M. Da11e Donne, E. Eisemann, F. ThÜMm1er und K. Wirtz,paper: Symp.Advanced and High Temperature Gas CooledReactors, Jülich 1968; KFK-841 (1968): High Tempere.ature Gas Cooling for Fast Breeders
2185. w. Dawih1 und E. Klingler, Vortrag: Deutsche keram.Ges.,Baden-Baden 1968: Uber mechanische und thermisoheEigenschaften von Schweißverbindungen zwischenA1203 und Metallen
- 117 -
2186. O.F. Devereux, Trans.Met.Soc. AlME 242, 795-9 (1967):Structure of Reaction Formed-xIumina-Si1icon Cer.mets
218~. E.L. Dieck, Diss.Techn.Hochschule Aachen 1968: Die zerstörungsfreie Bestimmung des Kernbrennstoffgehaltesoder des Abbrandes an Brennstoffproben oder Reaktorbrennelementen
2188. H. Doi, Y. Fuyiwara and K. Mtyake, Proc.Int.Conf.Strengthof Metals and Al10ys (Japan Inst.Meta1s, Tokyo,1968), 378-81: On Strengthening Mechanisms ofTungsten Carbide-Cobalt A110ys
2189. H.L. Druyden, U.S. Patent 3,415,556 (1968): Ceramic-toMeta1 Seal and Method of Making Same
2190. A.P. Dubrovskii and V.I. Baharinova, in: M.K. Rybaltschenko,Pulvermetallurgie in der modernen Technik (Nauka,Moskau, 1968): Porou8 Cermet Materials
2191. S.A. Dunn, Bul1.Am.Ceram.Soc. 47, 554-9 (1968): ViSCOU8Behaviour of Silica witniTungsten Inc1usions
2192. E.J. Ebert, C.H. Hami1ton and S.S. Recher, AFML-TR-68-71(1968): Composite Behaviour
2193. F. Eichhorn und J. Metzler, Meta11oberfl. 22, 225-34 (1968):Plasmaspritzen von Oxydkeramischen werkstoffen
2194. V.S. Emel'janov und A.J. Evstjuchin, Metallurgie der Kernbrennstoffe (Atomisdat, Moskau, 1968)
2195. B.R. Emrich and S.D. Brown, Mater.Engng 67 (5), 72-7 (1968):Ten New Ways to Fabricate Ceramic-Parts
2196. V.S. Eremeev, At.Energ. (USSR) 25 (5), 489-92 (1968):lnvestigation of C DiffuSion from UC into Mo and W
2197. S.K. Evans and E.A. Aitken, paper: Am.Ceram.Soc., Pasadena1968: Compatibi1ity of Pu02 with Rhodium
2198. H.E. Exner, AD-666 555 (1968): Palmquist Method forToughness Testing of Cemented Carbides
2199. W. Fairhurst, Metallurgia 77, 145-9 (1968): Usa of Mo1ybdenum in TiC-Based Germets
2200. I.V. Fedina, P.P. Ka1itiu and F.Ya. Kharitonov, Sov.PowderMet.Meta1 Ceram. (1968), Nr.6, 452: Influence ofSintering Conditions on Some Properties of MetalAluminum Oxide Cermets
2201. I.M. Fedorchenko, B.I. Chaika, A.V. Klimenko, T.V. Larinand B.M. Astashkevich, Poroschkovaya Met. (1968),Nr.ll, 56-61: Anti-Friction Properties of CermetPistoh Rings. ]I. Testing Materials on a FrictionMachine with To~and Fro Motion of the Friction Pair
2202. I.M. Fedorchenko and N.E. Ponomarenko, Sov.Powder Met.Metal Ceram. (1968), Nr.3, 219-25: Wear of Antifriotion Cermet Materials Under Conditions of EndFace Sliding Friction
2203. I.M. Fedortschenko andL.V. Zabolotny, Poroschkovaja Met.8(2), 27-31 (1968): Einfluß der Oberfläche auf den Verschleiß von Cermets
2204. I.B. Fiero, NASA-TN-4279 (1968): Temperature Gradient inW-U02 Fuel Elements
2205. J.N. Fleck, M. Goldstein, E. Jablonewski and D.E. Niesz,paper: Am.Ceram.Soc., Chicago 1968: CompositeMaterials: What Are They and Where Are They Going?
2206. D.N. French, Int.J.Powder Met. 4 (3), 55-61 (1968):Deformation of WC and Co-Alloys
- 118 -
2207. D.N. French, J.Metals 80, 120A (1968): X-Ray stressAnalysis of Tungsten Carbide-Cobalt Alloys
2206. N. Fuhrman, R.B. Holden and D.L. Hower, paper: Am.Ceram.Soc., Chicago 1968 (Ref. 28-N-68): Fabrication ofHigh Loaded U02-Cb Cermets by Sintering
2209. R.M. Fulrath and E.L. Hollar, Bull.Am.Ceram.Soc. 47, 493-7(1968): Manganese Glass-Mo Metal1izing Ceramies
2210. R.M. Fulrath and J.A. Pask, Ceramic Microstructures( Wiley, New York, 1968)
2211. G. Gerlach, G. Osterwald und W. Stichel, Z.Metallkde 59,576-9 (1968): Coulometrische Bestimmung der Mi~schungslücke zwischen flüssigem Kupfer und Kupfer(I)-Oxid
2212. W.A. Glaeser, Eval.Wear Test. (June 1968), 42-54: Wearand Friction of Nonmetal1ic Materials
2213. G. Glanz, Rev.Roumaine Phys. 13 (10), 829 (1968): Methodezur Bestimmung der Wärmeleitfähigkeit während Bestrahlung im Kernreaktor
2214. E. Gordon and N. Fuhrman, U.S. Patent ~,419,387 (1968):Process of Making High Loaded U02-Columbium Cermets
2215. M.J. Graber and G.W. Gibson, IN-1160 (1968): IrradiationTesting of Fuel for the Mark I Core of the ArgonneAdvanced Research Reactor
2216. W.A. Gray, The Packing of Solid Particles (Chapmann andHall, London, 1968)
2217. A.P. Greenough, Interfacial Cohesion (Inter-Service Met.Res.Council, London, 1968)
2218. H. Grewe und p. Walter, Metall 22, 707-16 (1968): ZurFrage des Wachstums der Gefügekomponenten und derVeränderung der Festigkeitseigenschaften in WC-CoHartmetallen
2219. F. Gross and R. Zöl1er, EUR-4210 f,e (1968), 451-60:Post Irradiation Investigations of U02-FueledThermionic Emitters
2220. L.N. Grossman, NASA-CR-1154 (1968): Thermal Conductivityof Coated Particles U02-W
2221. K. Grünthaler, S. Janes and J. Nixdorf, Vortrag: 2.Europ.Symp.Pulvermetallurgie, Stuttgart 1968 (Nr. 5.7):Ein Beitrag zur (pulvermetallurgischen) Herstellungvon Verbundwerkstoffen
2222. G.I. Gutshin, AED-Conf. 1968-080-111: Thermionic ConverterElectrical Characteristics with Matrix CircuitConnection
2223. V.J. Hammond, D.R. Gray and G.V. Planer, Microelectron.Rel. (Nov.1968): New Thin Film Cermet Resistors
2224. Akiro Hara and Shuji Yazu, J.Japan Soc.Powder Met. 15 (7),356-62 (1968): Rotating Bending Fatigue TestS-ofTungsten Carbides-Cobalt Cemented Carbides
2225. Akiro Hara and Shuji Yazu, Nippon Kinzoku Gakkai-Si 32 (1),61-6 (1968): On the Strength Recovery Phenomenä byAnnealing Cemented (Tungsten) Carbides ContainingCracks
2226. Z. Hashin, J.Comp.Mater.2 (3), 284-300 (1968): Assessmentof the Self Conslstant Scheme Approximation:Conductivity of Partic~ate Composites
2227. B.S. HilI, SC-DR-68-295 (1968): Samaria-Tungsten CermetImpact Tests
- 119 -
2228. R.H. Hiltz, U.S. Patent 3,410,145 (1968): Coating ofRefractory Metals with Metal Modified Oxides
2229. I.S. Hirschhorn, AED-Conf. 1968-080-047: Scel1ementsCeramique=Metal
2230. A. Hivert, Soc.Franc.C~ram. 80, 93-109 (1968): Some BasieAspects of Metal Rein?örcement by aCeramie Phase
2231. J. Hohenstein, J.Vacuum Sci.Technol. 5 (2), 65-6 (1968):Cermet Resistors by Concurrent-rf and dc Sputtering
2232. A.N. Holden (ed): High Temperature Nuclear Fuels (Gordonand Breach, New York, 1968)
223J. A.N. Holden, Dispersion Fue1 Elements (Gordon and Breach,New York, 1968), 1-11: Introduction and History12-31: Dispersion Fuel Theory; 32-55: FabricationProcesses; 56-79: Aluminum Base Dispersion Fuel;80-98: Stain1ess Steel Base Dispersions; 99-127:Graphite Base Dispersion Fue1; 128-151: Oxide BaseDispersion Fue1; 152-183: Refractory Metal andOther Dispersion Systems; 184-218: Effects ofRadiation on Dispersion Fuels; 229-250: Metallographyand Examination of Dispersion ~llels
2234. H. Holleck, J.Nuc1.Mater. 28, 339-40 (1968): TernaryCarbides in the Sys1em U-M-C
2235. V.R. Howes, Corrosion Sei. 8, 221-4 (1968): Observationsof the MetallOxide Interface for Fe-Cr A110ys
2236. H. Hübner K. Janner, M. Peehs and H. Stehle, EUR-4210 f,e(1968), 711-20: A Low Swe11ing, Oxide FueledThermionic Emitter
2237. J.J. Huet and J. Vangeel, EUR-4210 f,e (1968), 731-47:High Temperature Compatibility of Refractory Metalsin Contact with Refractory Materials
2238. D.R. James, paper: AlME Meeting, New York 1968~ J.Meta1s 20~
112A (1968): Acoustic Emission by a Metal-Matrix -Composi te
2239. w. Jel1inghaus, Arch.Eisenhüttenwes. 39, 705-18 (1968):Powder Metallurgical Investiga1Ions on the TernarySystems Fe-W-C and Fe-Mo-C
2240. A. Jesse und G. Ondracek, Microscope 16, 115-21 (1968):Application of Quantitative Areä Analysis toComposites
2~1. A. Jesse und G. Ondracek, Vortrag: Metallographie-Ta6~g,
Gießen 1968: Stereometrische Gefügemessungen ankeramischen Proben und Cermets
2242. A. Jesse und G. Ondracek, Vortrag: Deutsche KeramischeGes., WÜTzburg 1968: Präparative Untersuchungensowie qualitative und quantitative Gefügeauswertungvon Verbundstoffen mit keramischer und metallischerPhase
2243. G.H. Johnson (ed.), Cerarnic-Meta1 Systems and EnamelBib1iography and Abstracts-1967 (Am.Ceram.Soc.,Columbus, 1968)
2244. R.B. Kaplan and F.A. Glanski, paper: Am.Ceram.Soc., Pasadena 1968: High Temperature Ceramic:CompositesFabricated by Chemica1 Vapor Deposition Techniques
2245. E.S. Karabozov et al., Fiz.Chim.Obr.Mat. (1968), Nr.3,123-9: Schweißverbindung Nb-A1203
2246. J.A. Kaschta1jan et al., Poroschkovaja Met. ~ (3), 91-3(1968): Elastische Eigenschaften von Eisen-GlasWerkstoffen
- 120 -
2247. R. Kleffer und E. Eipe1tauer, Vortrag: Deutsche keram.Ges., Baden-Baden 1968: Neue Entwicklungen auf demGebiete der Cermets
2248. S.S. Kiparisov, V.K. Narva and V.L. Rodionov, Izv.VUZ Tsvetnaya Met. (1968), No.6, 126-30: Producing CermetsBased on Titanium Carbide with a Binder of AlloySteel by the Impregnation Method
2249. K. Kirner, Bosch Techn. Ber. 2, 220-6 (1968): Plasmagespritzte, elektrisch isolierende Keramikschichten
2250. R.W. Knight, J. Binns and G.M. Adamson jr., ORNL-4242(1968): Fabrication Procedures for ManufacturingHigh Flux Isotope Reactor Fuel Elements
2251. I.Ya. Kondratov and I.A. Podchernyaeva, Trans.Sci.Conf.Asp.Labor.Naukova Dumka (Kiew, 1968), 137-43: Thermoemission of A110ys of Tungsten with Rare EarthElements
2252. M.S. Koval'chenko and N.N. Sereda, Sov.Powder Met.MetalCeram. (1968), No.l, 13-22: Sintering of TitaniumCarbide Base Cermets
2253. R.D. Kremith, J.W. Rosenbery and V. Hopkins, paper: Ceramic Metal Systems, Forth Worth 1968 (Abstr.20-C68F): Plasma Sprayed High Temperature Solid LAbricant Coatings
2254. T. Kubota, S. Takahashi, Y. HQnda et al., J.Atomic EnergySoc.Japan 10 02), 678 \1968): Behavior of BismuthBonding between Powder Compacted Ceramic Fue1 andCladding
2255.• T. Kubota, I. Komine and S. Takahashi, J.Atomic Energy Soc.Japan 10 (7), 384-9 (1968): Behavior of Dy?03 Dispersions in-W, Zr0 2 and U02 at High Temperatures
2256. I.S. Kulikov, G.M. Matveev, B.L. Rudoi and M.K. Shorshorov,Fiz.Khim.Obrab.Mater. (1968), No.4, 118-24: Choice ofOxide Phases for the Dispersion Hardening of MetaIBase Composite
2257. J .B. Lambert, U. S. Patent 3,415,640 (1968): Process fOl:·Making Dispersions of Particulate Oxides in Metal
2258. J.D.B. Lambert, in: High Temperature Nuclear.Fuels V.42,237-54 (1968): Irradiation Study of UO?-Stain1essStee1 and (Pu, U)O?-Stainless Stee1 Cermet Fuels inRod and Plate Geometry
2259. P. Lanaspeze and H. Tannellberger, EUR-3614 (1968): Searchfor aCeramie Crucible Material for Uranium Smelting
2260. A.S. Lautsyuo, Yu.A. Meshkuotis, V.B. To1utis and A.F.Chyapas, Materia1y I Respublik.Konf. (AN Litovskoi SSR, Vil'
nyus, 1968), 66-7: Thin Films in the System Cr-SiO2261. B. Lehtinen, J .Sci .Instr. 1, 673-4 (1968): The Thinning of
WC-Co Hard Metals to-Electron Transparancy by Electropolishing
2262. R. Linder, BMwF-FB K 68-35 (1968): Verhalten von Kernreaktorbrennstoffen bei höheren Temperaturen
2263. L.A. Lucare11i and D.W. Link, Paper: Ceramic Metal Systems,Fort Worth 1968 (Abstr.23-C-68F): Re-Entry Simulationwith Thermal and Mechanica1 Stresses for CeramicMetal Systems
2264. S.B. Luyckx, Acta Met. 16, 535-44 (1968): MicroscopicA$pects of Fractur-e in WC-Co Alloys
- 121 -
2265. S.N. L'vov, P.I. Mal'ko and V.F. Nemchenko, Porosh.Met.Akad.Nauk Ukr.SSR (1968), No.8, 100-2: Installationfor Determining the Temperature Dependence of Resistivity over the Temperature Range from 300 to 2500 °K
2266. W. Mader und K. Müller, Vortrag: 2.Europ.Symp.Pulvermet.,Stuttgart 1968, Ber.Nr.7.ll: Bestimmung und Vergleichvon Gefügeparametern bei Hartmetall-tegierungen überelektronenmikroskopische und lichmikroskopische Aufnahmen
2267. C.R. Manning and R.F. stoops, J.Am.Ceram.$oc.5l, 411-5,415-9 (1968): High Temperature Cermets.-r. CompatibHity; II:. Wetting and Fabrication
2268. L.h. Mansfield, Iron and Steel 41 (2), 545-7 (1968): MetalBased Composite Materials--
2269. R.Morowska and J. Ma1inowski, Vacuum 18 (9), 515 (1968):Preparation of Cermet Thin Films by E1ectron-Bombardment Evaporation
2270. K. Miyakee, Y. Fujiwara and K. Nishigaki, Nippon KinzokuGakkaishi 32, 1128-31 (1968): On the Fatigue of WOCo A1loys --
2271. A. Miyoshi, A. Hara and Y. Sugimoto, Sumitomo Elec.Tech.Rev.11, 120-3 (1968): Investigation of Cracks Around Vickers Hardness Indentation in Cemented Carbides
2272. F.R.N. Nabarro and S.B. Luyckx, Proc.lnt.Conf. on Strengthof Metals and Al10ys (Japan Inst.Met., Tokyo, 1968),374-7: The Thepry of the Strength of Tungsten CarbideCobalt Compacts
2273. S. Nazare und G. Ondracek, Vortrag: Deutsche Keram.Gas.,Baden-Baden 1968: Zur thermischen Ausdehnung vonCermets
2274. B.P. Nichiporenko, A.]). Osipov, V.I. Zmii, A.F.Korzhavyiand N.S. Po1tavtsev, Temperature-Stable ProtectiveCoatings (Nauka Press, Leningrad, 1968),Effect of Conditions of the Preparation of Si1icideLayers on Molybdenum on some of their Properties
2275. M. Nichola~ J.Mater.Sci. 3, 571-6 (1968): The Strength ofMetal/Alumina Inter?aces
2276. M. Nicholas, R.R.D. Forgan and D.M. Poole, J.Mater.Sci. 3,9-14 (1968): The Adhesion of Metal/A1umina Interfaces
2277. J .M.Nijpjes, Vortrag:6.Plansee-Seminar, Reutte/Tü'ol 1968:Zr02-Coatings on Nimonic A110ys
2278. G.C.E. 01ds, Metals and Ceramics (Oliver and Boyd, Edinburgh, 1968)
2279. G. Ondracek, Vortrag: Metallographische UntersuchungsmethodenII:, Techn.Akad., Ess1ingen 1968: Gefügeanalyse mitHilfe des Quantimet-E1ektronenrecrülers
2280. G. Ondracek, B. Leder und C. Politis, Prakt.Metallogr. 5,71-84 (1968); KFK-740 (1968): Quantitative Schlif?präparation bei Metall-Keramik-Kombinationen
2281. G. Ondracek und U. Ludwig, Prakt.Metallogr. 5, 369-75 (196$:Veränderungen im Oberflächenbereich me~allographischpräparierter Proben
2282. G. Ondracek und E. Patrassi, Ber.Dtsch.Keram.Ges. 45, 61721 (1968): Die instabile Cermetkombination Trruranoktaoxid-A1uminium. II:. Reaktionsverhalten und Eigenschaften von U30S-Al-Cermets
2283. G. Ondracek und B. Schulz, Ber.Dtsch.Keram.Ges. 45, 509-13(1968): Die instabile Cermetkombination TrIüranoktaoxid-AluminIum. I. Technologie von U308-Al-Cermets
- 122 -
2284. G. Ondracek und B. Schulz, Vortrag: Deutsche Ges.Metallkunde, Hannover 1968: Zur Leitfähigkeit von Cermets
2285. G. Ondracek und F. ThÜIDmler, Vortrag: 2.Int.Europ.Symp.Pulvermet., Stuttgart 1968, Ber.Nr.5.l: Untersuchungen an stabilen und instabilen Dispersionen aus Uranverbindungen und Metallen
2286. V.C. Pearson, ANL-7477 (1968): Developments in the Elimination of Boron Loss from Uranium Dioxide-StainlessSteel Dispersion Fuel Plates for the Argonne AdvancedResearch Mark 1 Core
2287. D. Peckner, Materials Engng 67 (5), 37-9 (1968): TiC-MoCermets Resist Heat anOlWear
2288. G. Person, Nature 218, 159-60 (1968): Thin Foils of WC-CoHard Metals ---
2289. W. Peter, E. Kohlhaas und A. Fischer, Prakt.Metallogr. 5,~15-23 (1968): Verfahren zur Probenpräparation vonhartmetallen für elektronenmikroskopische Aufnahmen
22'90. G. Petzow, N. Claussen und H.E. Exner, Z.Metallkde 59, 1709 (1968): Aufbau und Eigenschaften von CermetS-
2291. K.E.~. Pitt and A.J. Howard, Vacuum 18 (9), 517-8 (1968):The Nature of Residual Gases During the Depositionof Resistive Thin Films
2292. L.P. Pons, P. Coster et K. Desehanvres, rapport: 2.Europ.Symp.Pulvermet., ,Stuttgart 1968, Ber.Nr.7.4: Surcertains h~t~rogenites de strueture ~e~ composesWC-Co soumis Ades pressions tr~s ~leves
2293. S.I. Radu, C. Zamfirescu and O. Perva, Cere.Met. 10, 38548 (1968): Sintering with Liquid Phase in tne SystemWC-Co
2294. W.A. Ranken, M.C. Channey and A.J. Patrick, EUR-4210 f,e(1968), 410-5: Retention of Fission Gases in theUO? Phase of Mo-U02Cermets Irradiated at High Temperatures
2295. J. Rezek and B.G. Childs, J.Nucl.Mater. 26, 285-99 (1968):Properties and Structure of Zr-Y0 2-nispersions
2296. R.C. Rossi, J.Am.Ceram.Soe. 51, 433- (1968): Predietionof the Elastic Moduli O? Composites
2297. A. Rouanet, Compt.Rend. C 267 (23), 1581- (1968): Diagrammes de solidification et diagrammes de phasesde haute temperature des syst~mes zireone-oxyded'erbium, zircone-oxyde d'yttrium et zircone-oxyded'yterbium
2298. K.K. Rybaltschenko, in: M.K. Rybaltschenko (ed.), Pulvermetallurgie in der modernen Technik (Nauka, Moskau,1968), 53-63: Thermal Stability of Refractory Cermet Materials and Thermal Insulation Coatings
2299. N.N. Rykalin, I.D. Kulagin, V.V. Kudinov and E.K. Sinolitsyn, Temperature-Stable Protective Coatings (Nauka, Lenin-
grad, 1968), : Methods of Raising the Qualityof Metallized Ceramic Coatings
2300. A.A. Ryzhkin, Stanki i Instrument 39 (6), 26-8 (1968):Whole Hard-Alloy Drills for Machining Heat-Res~ant
Steels
2301. A.D. Saamishivli, Trudy Gruz.Politekhn.lnst. (1968), No.7,199-205: Diffusion of the Components of a CarbideTool into Nickel Creep Resistant Alloys
- 123 -
2302. !. Sa~ai and Z. Rara, Scisan-Kenkyu 20, 367-9 (1968):Flash Resistance Sintering in Jre-Al203
230" G.V. Samsonov et al., Porosh.Met. 8 (11), 42-8 (1968):Wetting of Refractory Carbides by Liquid Metals
2304. A.P. Savicky und L.S. Marcunova, lzv.Vysch.Utsch.Zaved.Fiz.11 (5), 157-9 (1968): Sinterung von AI-CuO-Körpernund Reduktion des Oxids
2305. R.A. Schapery, J.Compos.Mater. 2, 380-404 (1968): ThermalExpansion Coefficients of-Composite Materials Basedon Energy Principle
2306. R. Schenck,N.G.Schmahl und H.Kuepperbusch, Forschungsber.Landes Nordrhein-Westfalen Nr. 1938 (1968): Erzeugungund Verhalten festhaftender Oxydschichten auf metallischen Werkstoffen
2307. E.U. Schluender, Wärme- und Stoffübertrag. 1 (3), 153(1968): Reat Transfer in Packed.Beds-
2308. ~. Schmidt, G. Ondracek and E. Gebhardt, EUR-4210 f,e Q968h773-82: Cermets as Material for Thermionic Emitters
23D9. R. Schneider und D. Schönwald, K~~-787/EUR-3959 d (1968):Die Abscheidung von Chrom auf U02- und A1 203-Kugelnaus der Gasphase
2310. R. Schneider and D. Schönwald, MLM-1508 (1968): The Deposition of Mo on Zr02 and U02
2311. R. Scholze (Salmang/Scholze), ~ie physikalischen und chemischen Grundlagen der Keramik (5.Aufl., Springer,Berlin, 1968)
2312. D.R. Schuyler and T.G. Gregory, LA-DC-9616 (1968): TheMetallographie Examination of U02-Mo Cermet Fuels
2313. N.N. Sereda and M.S. Koval 'chenko, VortI'ag: 2.Europ.Symp.Pulvermet •• Stuttgart 1968. Ber.Nr.5.4; Poroshk.Met.(1968), No.lO, 88-92: Character of Fractures inTitanium Carbide-Base Cermets
2314. I.N. Sheenko, Svar.Proizv. (1968), No.?, 10-1: Hardfacingwith Cermet and Changes in Structure and Rardness ofthe vVhite Diffusion Layer
2315. p.F. Sikora and A.C. Millunzi, NASA-TM-X-1563 (1968): RotIsostatic Compaction of Tungsten-Uranium DioxideFuels with High-Volume Fraction of Uranium Dioxide
2316. A.K. Smalley, paper: Am.Ceram.Soc., Pasadena 1968: Deposition of A1203
by CVD on a Righ-Tantalum Alloy2317. A.K. Smalley, paper, Am.Ceram.Soc., Chicago 1968 (Ref.
18-C-68): Application of Al?03 Coatings by ChemicalVapor Deposition onto a Tanta~um Alloy
2318. J.T. Smith and J.D. Wood, Trans.AlME 242, 1181-2 (1968):~ispersed-ParticleDeformation rn-WC-Co Alloys
2319. R.A. Smith, E.O. Spidel and D.E. Kizer, BMI-1824 (1968):Factors Controlling the Growth of Cermets DuringThermal Cycling
2320. R.F. Snowball and D.R. Milner, Powder Met. 11 (21), 23-40(1968): Densification Processes in th€iTungstenCarbide-Cobalt System
232~. T.D. de Souza-Santos et al., Metallurgia ARM 24, 295-9(1968':Fuel Elements Raving Multiple Cermets
2322. E.O. Sp~idel, D.E. Kizer and D.L. Keller, BMl~1842 (1968):Preparation and Properties of U02' UN and UC CermetFuels
2323. C.A. Spindt, J.Appl.Phys. 39, 3504-5 (1968): Mo-Al203Emission Cathode
- 124 -
2324. R.E. Stapleton and R.J. Towner, Bull.Am.Ceram.Soe. 47,560-1 (1968): Hot-Pressed Alumina-Niobium GraaedComposites
2325. M.A. Stett and R.M. Fulrath, J.Am.Ceram.Soe. 51, 599-600(1968): Strengthening by Chemieal Bonding in BrittleMatrix
2326. J.J. Stiglieh, AMlffiC-MS-68-04 (1968): A Survey of PotentialCeramic Armor Materials
2327. H.E.N. Stone, Mater.Sei.Eng. 2, 280-1 (1968): Shrinkage andCavitation inthe Sintering of Cr-Cr203-Cermets
2328. I.M. Storozhevsky, Sov.Powder Met.Metal.Ceram. (1968), No.5,409-13: Some Problems in Modelling a Porous Body
2329. A. Stowa, ASM Bibliography No.B89-26 (1968): Cermets andCemented Carbides (1966-July 1968)
2330. G. Strohmeier, K. Sedlatschek und E. Pipitz, Erzmetall 21,51-7 (1968): Sinterwerkstoffe hoher Beständigkeit-gegen Metallschmelzen
2331. T. Sugita, M. Furnkawa and H. Yasui, Funtai Oyobi Funmatsuyakin 15 (5), 227-32; 233-9 (1968): Friction andWear Behavior of Ceramies Cemented Carbide Couples
2332. K.C. Sumpter, paper: Met.Soc.AIME, Detroit 1968: A PrimaryStudy on the Compressive Properties of CompositeNuelear Fuel Plates
2333. V.M. Surin, A.N. Maslov, V.S. Sokolov und G.A. Danilov,Pribory i Tekhnika Eksperimenta (1968), Nr·5, 227:Vakuum-Verdampfung von U02, Np02' Am02 und Cm02 zurHerstellung dünner Schichten für nukleare Untersuchungen
2334. W.H. Sutton, paper: Ceramie-Metal Systems, Fort Worth 1968(Abstr. 2-C-68F): Wetting, Bonding and Chernical Reaetions in Ceramie-Metal Composites
2335. Hisashi Suzuki and Kozi Hayashi, J.Japan Soe.Powder Met. 15(1), 369-11 (1968): High-Strength Tungsten Carbide--10 % Cobalt
233~ W.A. Tatern, paper: Cerarnic-Metal Systems, Fort Worth 1968(Abstr. 25-C-68F): Wear Resistant Plasma SprayedCoatings in lndustry
2337. T.R. Tauchert, J.Cornpos.Mater. 2, 478-86 (1968): ThermalStresses at Spherieal IneYusions in Uniform Heat Flow
2338. H.R. Thornton, J.Compos.Mater. 2, 32-42 (1968): Fabrieationof Metal Matrix Composite-Materials
233~ T.L. To1bert, Am.Soe.Test.Mat. EM-68-128 (1968): High Performance Composites
2340. V.I. Tumanov, E.A. Shchetilina, S.M. Filmanova and 0.1.Serebro, 1zv.Akad.Nauk SSSR, Metal (1968), No.8, 152-9:
The Structure and Physieal-Mechanieal Properties ofCast and Sintered WC-Co Alloys
2341. R.F. Tylecote, We1d.Metal Fabr. 36 (2), 61-73 (1968):Diffusion Bonding.TII. Ni, ~, Zr, Nb, Ti, W, Ta andCermets
2342. J.Valovic, N1JS-R-526 (1968): Dependence of Density on Parameters of Compression
2343' N.D. Veigel et al. NASA-CR-12404 (1968): Chemical VaporDeposition of Cr on ThO?
2344. V.K. Vitrynayuk and V.B. Ordenko, Sov.Powder Met.Meta1Ceram. (1968), No.l, 23-9: Classification of Methodsand Processes for the Manufacture of High-PorositySintered Materials. I.
- 125 -
2345. D. Vo11ath, KFK-762/EUR-3952 d (1968): Vertr.äg1ichkeithochschmelzender Metalle mit Urandioxid
2346. R. Warren, J.Mater.Sci. 3, 471-85 (1968): Microstructura1Deve10pment during-the Liquid-Phase Sintering of TwoPhase Al10ys with Special Reference to the NbC-CoSystem
2347. J.F. Wi11iford jr., Ceram.Age 84 (12), 28-33 (1968): HERFDensifies Ceramies, Cermets and Composites
2348. K. WDtz, KFK-836 (1968): Thermal Diffusion in Nuc1earReactor Fue1s
2349. J.C. Withers and E.F. Abrams, P1ating 55, 605-11 (1968):E1ectroforming of Composites --
2350. A.K. Wong and J. Brown, An-68 1920; AMMRC-TR-68-17 (1968):Titanium Carbide Content on Erosion in Cermet RocketNozz1e
235i. L. Yang and R.G. Hudson, EUR-4210 f,e (1968), 576-87: Fue1and Fission Product Transport through Chemica11yVapor-Deposited Fluoride Tungsten
2352. B.M. Zakharov and M.G. Trofimov, Temperature-Stab1e Pro-tective Coatings (Nauka, Leningrad, 1968), :Erosion-Resistant Coatings made of Tungsten Carbideand Tungsten Cobalt Carbide
2353. V.A. Zhi1in and V.M. Druzhinin, Sov.Powder Met.Meta1.Ceram.(1968), No.6, 488-91: Effect of Heating Temperatureon Properties of Hard-A11oy Cutting P1ates
1969
2354' G. Abate-Daga et I. Amato, rapport: Journees M~t. d'Automne,Soc.Franc.Met., Paris 1969: Preparation et characterisation d'un cermet U02-Mo
2355· R.J. Ackermann, E.G. Rauh and M.S. Chandrasekhariah, J.Phys.Chem. 73, 762-9 (1969): Thermodynamic Study of theSystemu02-U
2356. D.W. Adams and T.J. Moore, NASA-TM-X-1815 (1969): Brazingof U02-W Joints
2357· G.M. Adamson, ORNL-4420, 222-40; ORNL-4440 (1969), 192-215:Deve10pment of Fuel Element Fabrication
2358· G.M. Adamson and W.R. Martin, ORNL-4470 (1969), 94-111:Fue1 Element Fabrication Method
2359. L~M. Anishenko, Tsvet.Meta11y (1969), No.2, 86-8: Temperature Dependenee of the Thermal Conductivity of HardA110ys
2360. Anon., AD-695 046; DMIC-M-234 (1969): Meta1-Matrix Composi tes
2361. Anon., E1ectronics 42, 141-2 (1969): These Pots are notDrift1ess but~hey Drift 1ess
2362. Anon., E1ectronics 42, 185-6 (1969): Thick-film ic is totald-a converter-
2363· Anon., Mater. Eng. 70, 31 (Oct.1969): Comparisons of Materials; Me1ting-Points of Metals and Cerarnics
2364. Anon., Mater. Eng. 70, 44-5 (Nov.1969): Materials towardsthe Year 2000-
2365· Anon., Mater. Eng. 70, 298-300 (Oct.1969): Properties ofMaterials; ReTFactory Ceramies and Cermets
- 126 -
2366. Anon., ORNL-4270 (1969), Vol.1, rev.: Bibliography of theTechnical Literature of the Metals and Ceramics Division for the Period 1948 thIOugh 1968
2367. Anon., Reactor Mat. 11, 253-61 (Winter 1968-69): SpecialFabrication TeCEni~ues. Review of Fabrication Techni~ues for Cermets
2368. Anon., Reactor Mat. 12, 1-15 (Spring 1969): Fuel and FertileMaterials --
2369. Anon., WeId. Eng. 54 (6), 48-9 (1969): New Electric ProcessJoins Glass~o Metals
2370. Anon., West.Mach.Steel World 60 (6), 20-3, 35 (1969): Manufacturers to Order Properties - Not Materials (Res.and Dev. on New Products and Materials)
2371. A.Ya. Artamonov, A.M. Lemeshko and L.M. Murzin, Poroshk.Met.(1969), No.9, 95-100: Choice of Optimum Conditions forthe Electro-Erosion Machining of Chromium-Carbide BaseMaterial
2372. A.l. Avgustinik, G.I. Zhuralev and I.A. Matusov, Zh.Prikl.Khim. 42 (1), 62-7 (1969): Reaction of A1203 Meltwith Tantalum, Molybdenum, and Niobium
2373. M.M. Babich, Poroshk.Met. (1969), No.2, 100-4: Butt Weldingof Hard-Al1oy Cermet Parts
2374. M.M. Babich, A.F. Lisovsky, and N.B. Lisovskaya, Poroshk.Met. (1969), No.3, 96-100: Low-Temperature Oxidationof Hard-Alloy Mixtures
2375. L.L. Ball and D.W. Sheibley, NASA-TM-X-1872 (1969): Postirradiation Analysis of High-Temperature, Low-BurnupTungsten-Uranium Dioxide Test Plates
2376. H.N. Barr and F.T. Princiotta, paper: Am.Ceram.Soc., 22ndCoast Regional Meeting, Seatt1e 1969: Metal Impragnated Ceramie Foam Composites for Radioisotope Generator Systems
2377. S. Barron, Am.Ceram.Soc.Bull. 48, 770-4 (1969): Thermocouple Cermets for Nucleär Rocket Engine Nozzles
2378. W.G. Baxter and W.C. Kuhlmann, GEMP-I013 (1969), 339-48:Fast Breeder Reactor Thermocouple Development
2379. M. Ben-Amoz, Int.J.Engng Sei 7 (10), 999-1010 (1969): TheEffective Wave Veloeities of Heterogeneous Materials
2380. R. Benz, J.Nucl.Mater. 29, 43-9 (1969): Th-Th02 Phase E~ui-libria --
2381. O.R. Bergmann, U.S. Patent 3,459,515 (1969): Cermets of Aluminum with Titanium Carbide and Titanium and Zirconium Borides
2382. P. Beucherie et M. Block, EUR-4398f (1969): Revetement departicules fissiles par pulverisation par plasma induct1f haute fr~~uence
238~ J. Beynon and K. Head, Vacuum 19, 82 (1969): Compositionof Chromium-Silicon MonoXIde Cermet Resistors
2384. P.H.H. Bishop and K.F. Rogers, RAE-TR-69 053 (1969): Predicting the Behaviour of Material Systems by Fittinga Theoretical Model to Observation
2385. L. Boginskii, Planseeber. Pulvermet. 17, 225-36 (1969):New Trends in the Impulse PressIng of Powders
2386. L.J. Bonis and R. Gierson, U.S. Patent 3,460,971 (1969):Method for Production of Composite Materials andArticles Produced Therebye
- 127 -
2387. J. Bratspies and J.D. Wood, paper: Fall Meeting Met.Soc.AlME, Philadelphia 1969: Elevated-Temperature andStrain-Rate Effects on the Strength of Tungsten Carbide-Cobalt Alloys
2388. J. Bratspies and J.D. Wood, paper: Fall Meeting Met.Soc.AlME, Philadelphia 1969: Tungsten Carbide-CobaltAlloys in Bending - The Effect of Strain Rate andTemperature
2389. L.J. Broutman, T. Koboyashi and D. Carrillo, J.Compos.Mater.3, 702-4 (1969): Determination of Fracture Sites inComposite Materials with Liquid Crystals
2390. J.B. Brown and V.W. Storhok, Reactor Fuel Process. (Spring1969), 134-50: Postoperative Studies of PM-l and PM3A Fuel Tubes
2391. T.W. Butler, Meta11ogr. 2, 289-92 (1969): An lnvestigationof Particle Size Analysis as Applied to WC-Co
2392· T.W. Butler, PB-18 306. NYO-2394-35. TR-35 (1969): A FurtherLook at WC-Co from the Continuum Viewpoint
2393. J.A. Champion, B.J. Keene and J.M. Sillwood, J.Mater.Sci.4 (10), 39-49 (1969): Wetting of Aluminum Oxide byMolten Aluminum and other Metals
2394. A.T. Chapman, G.W. Clark and D.E. Hendrix, paper: Am.Ceram.Soc., Washington 1969 (Ref. I-N-69): UO,-W CermetsProduced by Unidirectional Solidification
239> I.N. Chaporova, L.E. Pivovarov, V.A. Ivensen, O.N. Eiduk,T.A. Sultanyan, V.A. Varaksina, R~F. Korotkova and V.A.Chistyakova, Poroshk.Met. (1969), No.5, 63-8: lnvestigation
of Changes in the Structure of WC-Co Alloys atPlastic Deformation
239& V. Cherkh and I. Kraus, CONF-660 915 (1969), Vol.2, 159-70:Stresses in Sintered WC-Co
2397. V. Coen, H. Hausner, H. Kolbe and D. Quataert, in: O.L.Kruger (ed.), Ceramic Nuclear Fuels (Am.Ceram.Soc.,Columbus, 1969), 147-55: Interaction between UraniumCarbide and Refractory Metals
239~ J.F. Collins, GEMP-741 (1969); GE-NSR, GEMP-IOll (1969),82-6: Refractory Metal Fuel Element Research
239~ J.F. Collins and D.L. Newsom, GEMP-I013 (1969), 43-51:Refractory Metal Fuel Element Research
240~ J.F. Collins and D.L. Newsom, GEMP-I013 (1969), 149-65:Testing and Evaluation of 710 Reactor Program inPile Test Specimens
2401. M. Coster and A. Deschanvres, Compt.Rend. 29C, 221-3 (1969):Experimental Results of the Kinetics-of the Growth ofTungsten Carbide Crystals in the Presence of Cobalt
2402. E.D. Covington (ed.), lN-1335 (1969), 25-82: Reactor Fuelsand Materials Development
2403. G.M. Damson, ORNL-4342 (1969): Fabrication of U02-B4C-AlFuel Elements2404. R.W. Davidge, Contemp.Phys. 10 (2), 105-24 (1969): Mechani
cal Properties of Ceramic Materials2405. L.W. Davis and J.R. Long, paper: Am.Ceram.Soc., Ceramic
Metal Div., Cleveland 1969 (Abstr.19-C-69F): TitaniumMatriK Composite Development
2406. L.W. Davis and E.V. Summer, paper: Am.Ceram.Soc., NuclearDiv., Seattle 1969: State-of-the-Art for Metal MatrixComposites
- 128 -
24.07. W. Dawihl and E. Doerre, Powder 'Met. Int. 1 (1), 11-5 (1969):Adsorption Reactions of the Surfaces-of Powders, Sintered Metals and Oxides
24D8. W. Dawihl and E. KlingleI', Ber.Dtsch.Keram.Ges. 46, 12-8;Disk.321 (1969): Mechanische und thermische-Eigenschaften von Schweißverbindungen des A120~ mit Metal-len ./
2409. A.S. Demjantschuk, Zhur.Prikl.Spektrosk. 10, 550-3 (1969):Einfluß der Porosität auf die Analysenresultate beiCermets
2410. A.G. Dobrovol'sky, Poroshk.Met. (1969), No.2, 94-9: SlipCasting of an Zirconium Carbide-Tungsten Composite
2411. A. Dogu, G. Petitjean and A. Accary, J.Nucl.Mater. 30, 282-8(1969): Study of the Mechanism of the Fritting-Reaotion under Pressure
2412. H. Doi, Y. Fujiwara and K. Miyake, Trans.Met.Soo.AIME 245,1457-70 (1969): Mechanism of Plastio Deformation-andDislooation Damping of Cemented Carbides
2413. P.D. Donovah and B.R. Watson-Adams, Metals Mater. 3,(1969): Formation of Composite Materials by ~leetrodeposition
2414. N.F. Dow and B.W. Rosen, NASA-CR-1324 (1969): Zero ThermalExpansion Composites
2415. W. Dress and J.H. Grimmes, Brit. Patent 1,175,834 (1969):Improvement in or Relating to the Chemical Productionof Meta1-Containing Materials as Partieles or otherConfigurations
2416. E.C. Duderstadt, GEMP-682 (1969): Fission Transport Proeessesin Refractory Metal-Fuel Systems
2417. P. Ettmayer, H. Priemer 1h~d R. Kieffer, Metall 23, 307~10
(1969): Heuere Entwicklungen bei Hochtemperatur-Hoehdruck-Autoklaven für pulvermetallurgische Produkte,insbesondere Hartmetalle
2418. H.E. Exner, Trans.Met.Soe.AIME, 245, 671 (1969): The Inf1uenee of Sampie Preparation-on Palmqvist's Method forToughness Testing of Cemented Carbide
2419. J.M. Faekelmann, paper: Am.Ceram.Soe., 22nd Paeifie CoastRegional Meeting, Seattle 1969: Phase Equilibria inthe U-V-C and U-V-N Systems
2420. A.A. Fahmy and A.N. Ragai, paper: Am.Ceram.Soe., Washington1969 (Ref.2-JV-69): Hardness Deformation and Failureof Glass-Metal Composites
2421. V.N. Filimonenko, J. Gurland and M.H. Riehman, Metallogr.~,125-36 (1969): The Microstrueture of Eleetrie DisehargeMaohined WC-Co
2422. B. Fran20is and J.P. Stora, J.Nuel.Mat~r. 29, 302-14 (1969):Preparation and Thermal Conductivity-of U02 MetallioCeramies of Certain Texture
2423. D.N. Freneh, J.Am.Ceram.Soe. 52, 261-11; 211-5 (1969): xRay Stress Analysis of WO-Co Cermets. I. Procedures;H. Temperature Stresses
2424. D.N. French, Int.J.Powder Met. 5 (3), 41-60 (1969): TheMierostructure and Mieroproperties of WC-Co Alloys
2425. D.N. Freneh, Trans.Met.Soe.AIME 245, 2351-2 (1969): Residual Stresses and Craoking in WC-Co Alloys
2426. R.D. Freneh, M.H. Richman and A.P. Levitt, AD-700 121,AMMRC-TR-69-29 (1969): Interfacial1y Aetive Metalsin Metal-Ceramic Composites
- 129 -
2421· R.E. Fryxell, GEMP-1013 (1969), 15-41: High-TemperatureStudies of Uranium Based Fuels
2428. N. Fuhrmann, E. Gordon and R.B. Holden, U.S. Patent 3,429,699 (1969): High Loaded U0
2-ColumbiumCermets. High
Loaded U02-Niobium Cermets2429. H.T. Fullam, BNWL-1014 (1969): Cold Pressing of Aluminum
Rare Earth Oxide Composites2430. R.M. Pulrath, UCRL-19 023 (1969): Ceramic-Metal Adhesion2431. 0. Gautsch and E. Ruedel, J.Nucl.Mater. 32, 290-8 (1969):
On the Protection of U02' U and UC-oy Metal Filmsagainst Fission Induced Losses of Uranium
2432. Yu.D. Gerasimov, R.V. Rybal'chenko, A.L. Lunts and B.N.Anders, Poroshk.Met. (1969), No.4, 14-85: Use of Mathemati
cal Analysis in Detecting Relationships betweenManufactured Parts and the Quality of the OriginalMaterials, Using Alloy T17K6 as an Example
2433. A. Gilpin, Dictionary of Fuel Technology (Butterworths,London, 1969)
2434. o. Götzmann, KFK-985 (1969), 135-59: Verträ·glichkeit vonHüllmaterialien mit Kernbrennstoffen
2435. o. Götzmann und F. Thümmler, in: F.Benesovsky, Hochtemperatur-Werkstoffe (MetalIwerk Plansee, Reutte/Tirol,1969), 439-66: Wechselwirkungen von möglichen Hül1werkstoffen des schnellen Brüters mit UN und U02
2436. Ya.G. Gorodetsky and V.S. Tsikalenko, Poroshk.Met. (1969),No.4, 90-5: Method of Determining the Economic Efficiency of the Cermet Industry
2437. B.G. Gurevich, N.G. Morozova, V.G. Sobolev, I.D. Radomysel'sky and N.N. Klimenko, Poroshk.Met. (1969), No.9, 87-92:
Experience in the Heat Treatment of Metal10ceramicParts of Complex Form
2438. J. Gurland, AD-699 187; ARPA-E70 (1969): Microstructural Aspe~
of Strength and Hardness of Cemented Tungsten Carbide2439. E.A. Guzewics, U.S. Patent 3,427,698 (1969): Rocket Nozzle
2440. T. Hachisuka, T. Nishimura and M. Kondo, Trans.Jap.lnst.Met. 10, 271-6 (1969): The Role of Molybdenum in theOxidatron of TiC-Ni-Mo Alloys
2441. A.S. Halpern, TI.S. Patent 3,457,637 (1969): Method forTrimming Cermet Resistors
2442. A. Hara, T. Nishikawa and S. Yazu, Sumitomo Denki (March1969), No.99, 98-110: Electron Microscope Observationof Fracture Surfaces of WC-Co Cemented Carbides
2443. A. Hara, T. Nishikawa and S. Yazu, Sumitomo Denki (July1969), No.lOO, 136-43: Rotating Bending Fatigue Testsof WC-Co Cemented Carbides
2444. D.P.H. Hasselman, J.Am.Ceram.Soc. 22, 457 (1969): GriffithFlaws and the Effect of Porosity on Tensile Strengthof Brittle Ceramics
2445. H.M. Haydt, J.D.T. Cappocchi, S.H.L. Cintra and E.F. GentileMetallurgia (Sao Paulo) 25, 111-7 (1969): PreliminaryNote on the Properties ana StructuI'e of Thoria-BaseDispersions
2446. K. Head, Thin Solid Films 4, 153-10 (1969): The Developmentof Cermets - Vacuum ~eposited Materials of High Resistivity
- 130 -
2447. J.M. Hendrie, K.C. Hoffman, H.J.C. Kouts, R.J. Parsick, J.p.Phelps, G.A. Price, M. Rich, H. Takahashi and H.H. Windsor,
BNL-13 208 (1969): Brookhaven Pulsed Fast ResearchReactor
2448. J.J!'. Henrickson, G. Kraus, R.N. Tauber and J.D. Sharp, J.Appl.Phys. 40, 5006-14 (1969): Structure and Properties of Spultered Ta-Al203 Cermet Thin Films
2449. R.F. Hilbert et al., BMI-1875 (1969), 18-22: Progress onHigh-Temperature Fuels Technology During August throughOctober 1969
2450. E. Hillnhagen an d J. Willbrand, Prakt.Metallogr. 6, 135-44(1969): stereometrische Elektronenmikroskople an WCCo-Legierungen
2451. D.W. Hobbs, Nature 222 (5196), 849-51 (1969): Bulk ModulusShrinkage and~ermal Expansion of Two-Phase Material
2452· P. Hofmann, F. ThümWler und H. Wedemeyer, KFK-979/EUR-3967d(1969): Vertraglichkeitsuntersuchungen mit simulierten Spaltprodukten an nicht-rostendem Stahl und Molybdän mit und ohne Gegenwart von U02
2453. H. Holleck, KFK-IOll (1969): Ternary Uranium-TransitionMetal-Nitrides
2454. S. F. Hulbert, J.Brit.Ceram.Soc. 6, 11-20 (1969): SolidState Reactions in Powdered-Compacts (A ReView)
2455. H.Y. Hunsicker, Trans.Met.Soc.AIME 245, 29-42 (1969): Graphie Method for Analysis of ~Deformation and Effectsof Directional Properties (Composites)
2456. V.S. Ivanova et al., Metalloved.Term.Obr.Met. (1969), No.5,32-4: Outlook for Composites
2457. S. Janes und J. Nixdorf, Ber.Deut.Keram.Ges. 46, 60-4 (196~:
Herstellung dichter Formkorper aus Karbiden, Boriden,Nitriden, Siliziden, Oxiden und Cermets durch Drucksintern
2458. A. Jesse, Diss. Universität Karlsruhe 1969: Untersuchungenan den stabilen Dispersionen UA1
4-Alund U02-Cu
2459. A. Jesse, in: G.Ondracek (com~1 Bildanalyse mit dem Quantimet (KFK-845 (1969 », Bei trag Nr.5: Zur quanti tativen Schliffpräparation und quantitativen Gefügeanalyse von Cermets
2460. A. Jesse und G. Ondracek, in: G.Ondracek (com~1 Bildanalysemi t dem Quantimet (KFK-845 (1969», Beitrag Nr.6: stereometrische Gefügeanalyse mit Universal-Mikroskopund Quantimet
2461. A. Jesse und G. Ondracek, Vortrag: Quantimet-Kolloquium,Frankfurt 1969: Zur Anwendung des Quantimets bei derUntersuchung von Materialien der Kerntechnik
2462. J. Johansson, G. Persson and R. Hiltscher, in: Recent Material Development in Powder Metallurgy (Deut.Akad.Wiss.,~resden, 1969), Vol.2, 36.1-19: Determination of Staticand Fati~e Strength of Hard Me~als
2463. R.L. Jones, Acta Met. 17, 229-35 (1969): The Tensile Deformation of Copper Single Crystals Containing BeOParticles
2464. W.T. Kaarlela, U.S. Patent 3,421,202 (1969): process forJoining Metals and Ceramies Having Grossly DifferentCoefficients of Thermal Expansion
2465. D.L. Keller and W. Chubb, BMI-1875 (1969): Progress onHigh-Temperature Fuel Technology
- 131 -
2466. R. Kieffer, E. Eipeltauer und E. Gugel, Ber.Deut.Keram.Ges.46, 486-92 (1969): Neue Entwicklungen auf dem Gebietaer Cermets
2467. S.S. Kiparisov and V.K. Narva, Izv.V.U.Z., Tsvet.Jlet. (MayJune 1969), No.;, 135-9: Production and Properties ofTitanium-Carbide-Base Cermets with a Binding Phase ofAlloy Steel
2468. S.S. Kiparisov, I.V. paisov and V.K. Narva, Poroshk.Met.(1969), No.9, 10-1;: Heat Treatment of MetalloceramicMaterials Based on Titanium Carbide
2469. R. Klersy and G. Musso, Brit. Patent 1,158,458 (1969): Process for Welding Tubes Made with Composite MetalMetal Oxide Materials, More Particularly for ClosingCans of Nuclear Reactor Fuel Elements
2470. J.T. Kl omp, Vortrag: 5th Int.Conf.Sci.Ceramics, RonnebyBrunn/Sweden 1969: Festkörperverbindung Metall/Keramik
2471. R.J. Knops and T.R. Steel, J.Compos.Mater. ;, 652-6; (1969):Stability of a Mixture of Two Elastic-Solids
2472. R.B. Kotelnikov, S.B. Baschlykov, A.I.Kaschtanov und T.S.Menschikova, Hochschmelzende Kernbrennstoffe (Atomisdat,
Moskau, 1969)2473. O.L. Kruger and A.I. Kaznoff (eds.), Ceramic Nuclear Fuels
(Am.Ceram.Soc., Cleveland, 1969)2474. V.T. Kumskov, L.M. Anishenko, V.S. Sidorov and Yu.P. Sidoro~
Tsvet.Met. (1969), No.l, 80-;: Study of the ThermalProcess in Sintering Furnaces
2475. I.B. Kuzma and M.V. Chepiga, Izv.Akad.Nauk SSSR, Neorg.Maten5 (1), 49-53 (1969): X-Ray Study of W-Fe-B and W-Co-B'System
2476. J.V. Larsen, AD-699 140; NOLTR-69-189 (1969): The ScanningElectron Microscope and its Application in FractureStudies of Composite Materials
2477. A. Lasalmonie et M. Sindzingre, rappcr-t s Journees Mlh. d' I
Automne, Soc.Franc.Met., Paris 1969: M~canique de deformation d'un alliage a phase dispersee
2478. E.M. Levin, C.R. Robbins and H.F. McMurdie, Phase Diagramsfor Ceramists, 1969 Suppl. (Am.Ceram.Soc., Columbus,.1969), 11-55: Two Metals with Oxygen
2479. C. Liesner und G. Wassermann, Z.Metallkde 60, 827-35 (1969)Verformungsverhalten und mechanische~igenschaftenvon Kupfer mit ~-Korund
2480· G. Lorenz, J.Austral.lnst.Met. 14, 5;-60 (1969): Effect ofDispersed Phases on the Macninibility of Metals
2481. W. Mader und K.F. Müller, Radex-Rdsch. (1969), 416-20: Bestimmung und Vergleich von Gefügeparameternbei Hartmetall-Legierungen über elektronenmikroskopische undlichtmikroskopische Aufnahmen
2482. K.H. MeGee, ASTME paper No.EM69-550 (1969): Metallurgy,Properties and Applications of Cemented Carbides
2483. W.R. Martin and J.M. Jones, ORNL-TM-2417 (1969): Performance and Stability of Borosilicate Glasses duringRolling of Stainless Steel U02 Fuel Coupons
2484. D.I. Matkin, Vortrag: 5th Int.Conf.Sci.Ceramies, RonnebyBrunn/Sweden 1969: Herstellung und Eigenschaftenhochfester Oxide und Oxidverbundstoffe
2485· V.A. Matonis, Polymer Engng Sei. 9 (2), 100- (1969): TheInterfaeial Stresses in a Partieulate CompositeSystem
- 132 -
2486· B.S. Methven, Radio Electron.Eng. 37, 17-21 (1969): Design,Construction and Performance-of Thick Film CermetTrimming Potentiometers
2487' S.P. Mitoff, in: H.Hermann (ed.), Advances in Materials Re-search (J.Wiley, New York, 1969), Vol.3, : Prop-erties Calculations for Heterogeneous Systems
2488. I. Miura and O. Okuno, J.Soc.Mat.Sci. Japan 18, 357-68 U96~:
Metallic Composite Materials --2489. T.J. Moore and D.W. Adams, NASA-TM-X-1815" (1969): A Pro
cedure for Furnace Brazing Butt Joints in TungstenUranium Dioxide Cermet Cylinders at 300 °c
2490· V.K. Moorthy and B.D. Zope, Trans.Indian Inst.Met. 22 (1),25-30 (1969): Preparation of High-Density UranIumMonocarbide Pellets by Reaction Sintering of Mixtureof Uranium Dicarbide and Uranium Metal Powders
2491· W.R. Morgan and R.L. Sands, Met.Rev. 14, 85-102 (1969): Isostatic Compaction of Metal Powders
2492. D.L. Newsom and J.F. Collins, GEMP-710 (1969): IrradiationTesting and Evaluation of Refractory Metal Fuel Elements of 710 Fast Reactor Program
2493- J .M. North, Bri t. Patent 1,164,810 (1969): Improvements inor Relating to Production of Particulate RefractoryMaterial
2494. R.J. Olsen and G.S. AnselI, Trans.Am.Soc.Met. 62, 711-20(1969): The Strength Differential in Two-Phase Alloys
2495' G. Ondracek, Vortrag: Metallographie-Seminar, Labor f.Werkstoffunters., München 1969: Quantitative Gefügeanalyseund Eigenschaften mehrphasiger Werkstoffe
2496. G. Ondracek und B. Kanel1akopulos, J.Nucl.Mater. 29, 169-77,(1969)p KFK-972 (1969): Untersuchungen im System TIrandioxid-Kupfer
2497' G. Ondracek, B. Schulz und F. Thümmler, High Temp. - HighPressures 1, 439-47 (1969): Zur Wfrmeleitfähigkeitvon Cermets und ihre Messung mit der Radialflußmethode
2498. S.S. Ordan'yan, N.V. Kosterova and A.I. Avgustinik, Izv.AkadNauk SSSR, Neorg.Mat. 5 (2), 389-90 (1969): Phase Diagram of the Tantalum Cärbide-Rhenium System
2499. H.J. Osburn, Powder Met. 12 (24), 471-502 (1969): Wear ofRock-Cutting Tools --
2500. V.A. Osipova and M.r. Pak, At.Energ. (USSR) 26, 72-3 (1969):Thermal Properties of Aluminum Oxide-Base Metal Ceramics in the Temperature Range of 473 to 1673 °K
2501. R.W. Parcel, in: J.B.Rittenhouse and J.B.Singletary (eds.),Space Materials Handbook (NASA, Washington, 1969),433-48: Metallic and Ceramic Materials for Structura1Applications
2502. B.A. Parker, J.Austr.Inst.Met. 14, 31-7 (1969): High ModulusComposites --
2503. P. Patriarca and W.O. Harms (comps.), ORNL-4350 (1969), 26089: Fuel Element Fabrication Development
2504. P. Patriarca and D.J. Rucker (eds.), ORNL-4480 (1969), 21344: Deve10pment of Fuel Element Fabrications
2505. L.A. Pember, R.D. Leggett and J.W. Weber, paper: Am.Ceram.Soc., Nuc1.Div., Seattle 1969 (Abstr.lO-N-69F): Interactions of the Mixed Oxide-Stainless Steel System atHigh Burnup
- 133 -
2506' W.M. Phillips, NASA-CR-I08 231: JPL-TR-32-1420 (1969): Metalto-Ceramic Seals for Thermionic Converters - A Litexature Survey
2507. C. Politis, F. Thümmler und H. Wedemeyer, J.Nucl.Mate~. 32,181-92 (1969): Untersuchungen über die Verträglich~keit von Uranmononitrid mit Molybdän, Wolfram undThoriumoxid bei hohen Temperaturen
2508. J.K. Pollard, R.L. Bell and G.G. Bloodworth, J.Vacuum Sei.Techn. 6, 702-5 (1969): The Structure and EleotriealProperties of Evaporated Gold/Silicon Monoxide Cermet Films
2509. S. Popovis, Am.Ceram.Soc.BUll. ~, 1060-~ (1969):.St~oturalModel Approach to Two-Phase Compos~te Mater~als, State-of-the-art
2510. E.C. Redward, Metallurgia 79, 225-8 (1969): Electrodeposited Composite Coatings
2511. F.C. Robertshaw, G~lP-717 (1969): Ni-Base Al10y Fuel Dispersions
2512. F.C. Robertshaw, GEMP-718; GEMP-719 (1969): Ferritic stainless Steel Fuel Dispersions; Austenitic StainlessSteel Fuel Dispersions
2513. J.A.L. Robertson, Irradiation Effeots in Nuolear Fuels(Gordon and Breach, New York, 1969)
2514. L. Roesch, Mem.Sci.Rev.Met. 66, 29-45 (1969): Influenoe ofDispersed Al203 in Fe --
25 15. B.W. Rosen, Univ.Miorofilms 69-5661 (1969); Ph.D. ThesisPennsylvania Univ., Philadelphia 1968: Thermal Expansion Coefficients of Composites
2516. R.C. Rossi, Am.Ceram.Soc.Bull. 48, 736-7 (1969): ThermalShock-Resistant Ceramic Composites
2517. R.C. Rossi, AD-690 164 (1969): Thermal Behavior of CeramicComposites
2518. A.G. Samojlov, A.I. Kastanov and V.S. Volkov, DispersionFuel Elements for Nuclear Reactors (Atomisdat, Mos-kau, 1969) .
2519. G.V. Samsonov (ed.), Protective Coatings on Metals (Acad.Sei. Ukr.SSR, Kiev; Consultants Bureau, Washington,1969), VoLl
2520. G.V. Samsonov and I.Ya. Kondratov, Poroshk.~~ad. Nauk Ukr.SSR (1969), No.8, 87-91: Cermet Alloys of Rheniumwith yttrium Hexaboride
2521. G.V. Samsonov, G.V. Plyushch and G.A. Pryadka, Poroshk.Met.(1969), No.8, 71-7: Rheological Properties of HardAlloy Mixtures Plasticized by Paraffin
2522. G.V. Samsonov, G.V. Plyushch, S.I. Slezko and G.A. Pryadka,Poroshk.Met.(1969), No.7, 18-27: Laws of Die Ex-trusion of Hard-Alloy M1xtures
2523~ A.E. Schaefer and J.A. Hibbits, Analyt.Chem. 41, 254-9(1969): Determination of Oxygen-to-UranTüm Ratiosin Hypo- and Hyperstoichiometric Uranium Dioxideand Tungsten-Uranium Dioxide
2524· S.J. Scharivker et al., Poroahk.Met. 9 (1), 38-43 (1969):Dichte von keramischen Plasmascnichten
2525' D. Schmidt, Diss.Universität Karlsruhe 1969; DLR-FB-69-96(1969): Cermets als thermionische Emitterwerkstoffe,vorzugsweise behandelt aB BariumkalziumwolframatWolfram-Formkörpern
- 134 -
2526. S.J. Schneider and C.L. McDanie1, J.Am.Ceram.Soc. 52, 518-9(1969): The System BAO-Pt
2527· H. Schuerch, paper: Am.Ceram.Soc., Nuc1.Div., Seatt1e 1969:Ceramic Composite Structura1 Components Made by Deposition Processes
2528. B. Schulz, Vortrag: Gemeinschaftstagung Deutsch.Physika1.Ges,Deutsch.Keram.Ges. und Deutsch.Glastechn.Ges., Mainz1969: Wl"rme1eitfähigkeit in Kernbrennstoffen
2529· J. Schwartz, U.S. Patent 3,441,895 (1969): Cermet ResEtanceModule
2530.• M.A. Schwartz, Space/Aeronaut. 52, 95-8 (July 1969): High-Temperature Materials --
2531. H.E. Schwiete, W. Krönert und H. B1eckmann, Vortrag: Dtsch.Keram.Ges., Mainz 1969: Reaktionen zwischen Hochtemperaturmeta11en und keramischen Oxiden unter Beteiligung der Gasphase
2532. J.E. SeIle, MLM-1589 (1969): A Summary of the Phase Diagrams and Compatibi1ity of Pu0
2with various Materials
2533. G.P. Sendecky, J.Compos.Mater. 2' 177-81 (1969): E1asticModu1i of Composites
2534. A.V. Serebrjakov, Fiz.Tverdogo Tela 11, 954-7 (1969): Koagulierung von Oxidteilchen in-einer metallischenGrundmasse
2535. V.I. Shvidenko, Poroshk.Met. (1969), No.1, 97-100: Methodof Studying the Heat Resistance of High1y-Refractor,yMaterials in Smal1 SampIes
2536. M.A. Stett and R.M. Fulrath, UCRL-18 723 (1969): Mechanica1Properties of Britt1e Matrix Composites
2537. I.M. Storozhevskii, AD-697 327; FSTC-HT-23-245-70 (1969)[Transl. from Poroshk.Met.5(1),70-5(1965)]= Simulationof Porous Body and the Determination of Relative CrossSectiona1 Weakening by the Pores
2538. H. Suzuki and K. Hayashi, Trans.Jap.Inst.Met. 10, 360-4(1969): Ro1e of Partic1e Size and Carbon-Uontent inHigh Strength WO-10 % Co Alloys
2539. H. Suzuki and T. Yamamotov, Trans.Jap.Inst.Met. 10, 351-9(1969): Cratering Wear of Cemented CarbideS-in Relation to Carbon Content in Too1s and Machined Steels
2540. H. Suzuki, T. Yamamoto and I. Kawakatsu, Nippon KinzokuGakkaishi 22 (1), 82-8 (1969): Cratering Wear in WCCo Cemented Carbides
2541. J.H. Swisher" E.O. Fuchs and T.D. Schlabach, J.Inst.Met. 97(4), lU3-9 (1969): Mechanical and Electrica1 Properties of Cu-Cu20 Eutectic A110ys
2542. P.D. Takkunen, NASA-TN-D-5136 (1969): Fabrication of Cermetsof Uranium Nitride and Tungsten or Mo1ybdenum fromMixed Powders and from Coated Partic1es
254}' R. Theisen, Canad. Patent 813,998 (1969): Method of CoatingUranium Carbide with Niobium and Nuc1ear Fue1 ElementsObtained according1y to Said Method
2544· W. Thie1emann, VDI-Z. 111, 525-9 (1969): Festigkeits- undWerkstoff-Fragen fur Satelliten und Raumfahrzeuge
2545. F. Thümm1er, Ber.Dtsch Keram.Ges. 46, 321 (1969): Diskussionsbeitrag zu 'Mechanische-urid thermische Eigenschaften von Schweißverbindungen des Al20~ mit Me-tallen J
- 135 -
2546· F. ThÜIDmler, Vortrag: Reaktortagung d. Deutschen Atomforums, Frankfurt 1969 (Abstr.S.232); AED-Conf.69-247001 (1969): Neue Ergebnisse auf dem Gebiet der Dispersions- und Cermet-Kernbrennstoffe
2547· F. ThÜIDmler, Vortrag: Int.Team for the Study of Sintering,Herceg-Novi/Jugoslawien, 1969: Neueste Entwicklungenauf dem Gebiet der Dispersions- und Cermet-Kernbrennstoffe
2548. F. Thümmler und E. Gebhardt, Reaktorwerkstoffe (Teubner,Stuttgart, 1969), Teil 2: Keramische und pulvermetallurgische Werkstoffe
2549. V.I. Tumanov, Poroshk.Met. (1969), No.3, 77-81: Study ofthe Structure of Cermets by Magnetic Methods (WC-Coand WC-TiC-Co)
2550. V.I. Tumanov, G.S. Kreimer, o.s. Safonova and V.V. Chernyshev, Izv.Akad.Nauk SSSR Met. (July-August 1969), No.4,
249-52: Strength and Ductility of Tungsten-CarbideCobalt Hard Alloys on Compressibility
2551. R.R. Tummala and A.L. Friedberg, J.Nucl.Mater. 32, 354-6(1969): Thermal Expansion of Cermets ContirningUraniumDioxide
2552. R.R. Tummala and A.L. Friedberg, paper: Am.Ceram.Soe.,Washington 1969 (Ref.7-JV-69): Thermal Expansion ofComposites as Affe~ted by the Matrix
2553. E. Valerius, VDI-Nachr. 23 (25), 26 (1969): Hartmetalleseit 1926 --
2554. P.Ä. Vormelker, Thesis, Ames Lab. Iowa 1969: Effect ofDispersions on the Ductility of Chromium
2555. R.K. Waits, Sol.State Technol.(June 1969), 64-8: HighResistivity Thin-Film Resistors for MonolithicCi rcuf ts (A Review)
2556. F.F.Y. Wang, paper: Am.Ceram.Soc., Washington 1969 (Ref.9JV-69): Elastie Moduli of Binary Composites
2557. R. Warren, J.Less-Common Meta1s 17, 65-72 (1969): CarbideGrain Growth during the Liquid-Phase Sintering of theAlloys NbC-Fe, NbC-Ni and NbC-Co
2558. p. Weimar, Diss.Universität Karlsruhe 1969: Herstellung undEigenschaften von Cermets mit idealisier·tem Gefüge(U02-Mo und U02-Cr)
2559. p. Weimar und F. Thi~ler, KFK-1112 (1969): Herstellung undEigenschaften von Cermets mit idealisiertem Gefüge imSystem U02-Cr
2560. P.Weimar, F. ThümIDler und H. Bumm, J.Nucl.Mater. 31, 215-25(1969): UO?-Cermets with Idealized structure-by Particle Coating and Isostatic Hot Pressing
2561. W.M. Whei1don, Ceram.lnd.Mag. ~ (3), 52-5 (1969): Ceramic Coatingsby Thermal Spraying
2562. R.E. Wi1son, paper: Am.Ceram.Soe., Washington 1969 (Ref. 5-JV-69):Properties of the Tungsten-Siliea System
2563. F.L. Yaggee and F.G. Foote, ANL-7644 (1969): Method for Reeonstructi.ng a Thermal-Expansion Graph from two Values of Mean Expansion Coefficient
2564. A.M. Zakharovand 1.1. Druzhinin, Izv.V.U.Z.Tkvet.Met. '(1969), No.2, 135-8: Deformation of Refraetory Metals and Alloys underVacuum at High Temperatures
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2565. W.F. Zelezny, G.W. Gibson and M.J. Graber, CONF-690910 (1969), 51632: A Microprobe Study of the Retention of the Fission GasXenon in Irradiated Uranium Fuels Dispersed in Aluminum-CladNuclear Reactor Fuel Plates
2566. G.M. Zhdanovich, Poroshk.Met. (1969), No.5, 24-8: Coefficient ofLateral Pressing
2567. G.P. Zlobin and O.P. Gamov, Electr.Obrab.Mater. (1969), No.l, 85-8:Fundamental Laws of the High-Frequency Erosion Machining of aHard Alloy
2568. G. Abate-Daga, I. Amato and G. Grappiolo, EUR-4550 e (1970): NuclearFuel with Burnable Poison. Pt.l, Gd203 microspheres preparationfrom the sol-gel method; pt.2, preparation and out-of-pileevaluation of Gd203 poisoned U02 pellets
2569. A. Accary, Powder Met.Int. ~, 40-2 (1970): Applications of Sintering in Nuclear Industry
2570. A. Accary, Rev.lnt.Hautes Temp.Refract. 1 (2), 106-14 (1970): Croissance cristalline dans l'aggreg-dt polycristallin ceramique
2571. G.M. Adamson, ORNL-4480; -4560 (1970), 213-43; 218-30: Deve10pmentof Fuel Element Fabrication
2572. A.C. Allen, Ceram.lnd. 22 (1), 44 (1970): Thick Films, Thin Filmsand Ceramies
2573. B.C. Allen, DMIC Rev. (29 July 1970), 2p.: Oxidation-Resistant Coating for Refractory Metals
2574. A.M. Alper (ed.), Phase Diagrams (Academic Press, N.Y., 1970): Vol.l,Theory, principles and techniques of phase diagrams; Vol.2, Theuse of phase diagrams in metal, refractory, ceramic and cermettechnology; Vol.3, The use of phase diagrams in electronic materials and glass technology
2575. R.L. Andelin and J.D. Watrons, MDC-G-2026 (1970): Plutonia/CuriaCompatibility Testing
2576. R.W. Anderson, SNC-3693 (1970), 170- : Tm Oxide for Thermal SourceApplications
2577. Anon., AD-701 500; DDC-TAS-70-1-Vol.l (1970): Manufacturing Methodsof Composite Materials (Bibliographie Repor~ Jan.1955-May 1969)
2578. Anon., AD-706 000; DDC-TAS-70-41-1 (1970): Seals (BibliographieReport, Jan.1955-0ct.1969)
2579. Anon., Amer.Machinist 114 (14), 91-2 (1970): R/D for Tomorrow'sComposites
2580. Anon., Ceramic Data Book 1971 - Supp1ier's Catalogue and Buyers'Directory (Cahner's Publ., Chicago, 1970)
2581. Anon., Chemische Werke Hüls, German Patent Appl. 1,948,183 (1970):Zirconium Nitride Coated Electrodes
2582. Anon., Chemische Werke Hüls, German Patent Appl. 1,948,181 (1970):Zirconium Carbide Coated Electrodes
2583. Anon., Deutscher Normenausschuss, DIN 30.900 (1970): Fachwörter aufdem Gebiet der Pulvermetallurgie und deren Definition
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2584. Anon., Du Pont & Co., Brit.Patent 1,231,084 (1970): Cobalt-BondedTungsten Carbide
2585. Anon., Du Pont & Co., German Patent Appl. 2,029,501 (1970): DenseSintered Bodies of Tungsten Carbide Bonded with Cobalt
2586. Anon., Du Pont & Co., German Patent Appl. 2,009,696 (1970): AluminaCermet Cutting Tools
2587. Anon., Electro Material Corp. of America, pamphlet No.125-6 (1970),10p.: Thick-Film Resistor, Conductors
2588. Anon., Electronics ~ (22), 39-40 (Oct.1970): Thin-Film CermetSolves Resistor Problems
2589. Anon., Grace & Co., Brit.Patent 1,224,012 (1970): Production ofUniform Spherical Particles from Metal Oxides for Use asNuclear Fuels
2590. Anon., Iron Age 205, 842 (7 May 1970): Repair or Replace? RepublicDoes neither; rebuilds the chocks with ceramaloy coatings
2591. Anon., Mater.Eng. ]g (7), 46-9 (1970): Versatile Ceramic CoatingsResist tough new Service Environments
2592. Anon., Mater.Eng. ]g, 309-11 (Nov.1970): Properties of Materials:Refractory ceramics and cermets, fired or sintered parts
2593. Anon., Metal Progr. ~, 7-8 (Nov.1970): Cemented Tungsten Carbidesare both Rard and Strong
2594. Anon., Nucl. Materials and Equipment Corp., Brit.Patent 1,201,845(1970): Production of Coated Metallic and Ceramic Particles
2595. Anon., 0RNL-4570 (1970), 1-4: Crystal Physics
2596. Anon., OIL~=4570 (1970), 127=35: ~~el Element Fabrication Development
2597. Anon., Thomson CSF, Brit.Patent 1,229,312 (1970): ReinforcingCeramic-to-Metal Seals
2598. L.M. Anihchenko et al., Fiz.Khim.Obr.Mat. ~, 120 (1970): Temperature Dependance of the Thermal Conductivity and ElectricalResistivity of Porous Molybdenum
2599. A.I. Avgustinik, S.S. Ordan'yan, R.Ya. Serbezova and I.F. Fonareva,Inorg.Mater. (USSR) ~, 1244-6 (1970): Phase Diagram of theSystem ZrB2-Re
2600. J.A. Ayer, U.S.Patent 3,517,431 (1970): Method of Making Combination Fuel Rods
2601. V.F. Bakarinova, E.M. Savitskii, B.G. Arabei and S.E. Salibekov,Inorg.Mater. (USSR) ~, 1818-9 (1970): Reactions of EuropiumHexaboride and Refractory Metals
2602. U. Baumgartner, Techn.Rundschau Nr.50 (27 Nov. 1970), 25-9: Hartmetallwerkzeuge
2603. R.G. Bedford and E. Catalano, Proc.8th Rare Earth Conf. (CONF700403), Vol.l, 376-87 (1970): An Investigation of the EuEu20~ System and the Equilibria between the Europium Oxidesand the Eu-pt Systems with Related Studies of the Sm-Sm203and the Yb-Yb203 Systems
2604. A. Ber and E.J. Weller, Met.Progr. 21, 139-40 (1970): Sma11 Hardness Variation Affect Cemented Carbide Tool Life
2605. M.J. Berau, in: Mechanies of Composite Materials (Pergamon, Oxford,1970), 243-54: Statistical Theory of Heterogeneous Media
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2607. H. Bernstein, in: A.M. Alper (ed.), Phase Diagrams (Academic Press,New York, 1970): Computer Calculation of Refractory MetalPhase Diagrams
2608. M.B. Bever et al., Mater.Sci.Tech. ~ (3), 149-66 (1970): On Structural Applieations of Composites
2609. E.R. Booser, Mach.Design ~ (15), 14-20 (1970): Trends in Bearingsand Lubrication. 3, Plain-Bearing Materials
2610. C.W. Bradstreet, paper: Metal Matrix Compesites, Amer.See.Met., St.Paul 1970: Compatibility and the Interface
2611. R.L. Brown and J.C. Richards, Principles of Powder Mechanies (Pergamon, Oxford, 1970)
2612. R.W. Buck, U.S.Patent 3,565,684 (1970): Metallised Ceramic andMethod and Composition therefor
2613. B.. Budiansky, J.Comp.Mater. ,4" 286-309 (1970): Thermal and Thermoelastic Properties of Isotropie Composites
2614. P.P. Budnikov, F.Ya. Kharitonov, Ya.V. Maths and Z.F. Zemlyakova,J.Appl.Chem. (USSR) ~, 2652-5 (1970): Corrosion Tests onRefractory and Refractory Materials in Metallic Sodium at850 °c
2615. A. Bukat et al., Proc. 3rd Int.Conf.Powdermet., Karlsbad 1970, Vol.3,295-314: Einfluss von feindispersem U02 im Gefüge von gesintertem U-Metall auf die Rekristallisationstemperatur
2616. H. Bumm, W. Dienst, P. Nikolopoulos, F. Thüwmler und P. Weimar, AED~
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2617. A.J. Burton, Design Engng (Nov. 1970), 51: Heating Elements - thedesign, selection and use of industrial and commercial eleetric elements
2618. D.A. Chance, Met.Trans. 1, 685-94 (1970): Refractory Metallizationof Ceramic Green Ceramie
2619. M.C. Chaney and A.J. Patrick, Thermionie Conversion Specialities(IEEE, New York, 1970), 281-7: Techniques for Determining thePost-Irradiation Disposition of 85Kr Produced in Mo-U02 CermetFuels
2620. A.T. Chapman, G.W. Clark and D.E. Hendrix, J.Amer.Ceram.Soc• .22.,60-1 (1970): U02-W Cermets Produced by Unidirectional Solidification
2621. M. Chatain, Mecanique-Materiaux-E1ectricite, Nos. 246-7, 15-22 (1970):Etude comparative et c1assification des materiaux eomposites
2622. J.L. Chermant, M. Coster et A. Deschanvres, Compt.Rend. C 271, 446-9(1970): Etude de 1a sensibilite a la fracture de plaquettes enWC-Co par methode de flexion
2623. J.L. Chermant, M. Coster et A. Deschanvres, Compt.Rend. C g]l, 885-8(1970): Facies microfraetographiques de carbures refractaires;cas des carbures TiC et des alliages WC-Co
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Parameters in Fabrieating U308-Al Dispersion Fuel Elements
2625. S.H.L. Cintra, E.F. Gentile and D.T. de Souza Santos, Metallurgia(Sao Paulo) ~, 417-20 (1970): Thermal Cyeling Test forPlates Containing Dispersions
2626. G. D'Andrea and F.F. Ling, Proe.Int.Conf. Heat Transfer (Elsevier,Amsterdam, 1970), 47- : On the Thermal Conduetivity of Composites
2627. A.S. Darling, G.L. Selman and R. Rushforth, Platinum Met. Rev, M,95-102 (1970): Reaetion of Platinum with Refraetory Oxides
2628. R.W. Davidge et al., Mater.Sei.Eng. 2 (5), 281-312 (1970): TheStrength of Ceramies
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2630. H. Doi, Y. Fujiwara, K. Miyake and Y. Oosawa, Met.Trans. 1, 141725 (1970): A Systematie Investigation of Elastie MOduli ofWC-Co Alloys
2631. J.A. Donovan, D.T. Rankin, J.E. Stuekey and W.R. MeConell, DP-MS-70-10;CONF-700608-21 (1970): Interaetion of Curium Sesquioxide withRefraetory Metal Matriees in Pressed and Sintered Cermet Compacts
2632. E. Dorre et al., Ber.Deut.Keram.Ges. iI, 622-6 (1970): CeramicMetal-Seals on an A1203-Bsis for Use at Elevated Temperatures
2633. F.A.L. Dullen and V.K. Batra, Ind.Eng.Chem. 62 (10), 25-53 (1970):Determination of the Structure of Porous Media
2634. G.W.A. Dlli~er, Materials for Conduetive and Resistive Functions(Hayden, New York, 1970), 108-10; 298-9: Thin-Film IntegratedCircuits; Cermet Films (Cr-SiO)
2635. V.N. Ermenko, Yu.V. Naidieh and I.A. Lavrinenko, Liquid Phase Sintering (Plenum Press, New York, 1970)
2636. V.N. Eremenko and T.Ya. Velikanova, Powder Met.Metal Ceram. (1970),No.9, 744-7: Phase Equilibria in the Mo-TiC-Ti Region of theTernary System Mo-Ti-C
2637. G. Ervin, AI-AEC-12 928 (1970): Research on Carbide Fue1s on Irradiation Test of Swelling Control by Fine Particle Dispersions
2638. J.H. Erwin, ORNL-4480 (1970), 230-1: Susceptibility to Blisteringof Fuel Plates that Contain Shaped Fuel Cores
2639. J.H. Erwin, ORNL-4600 (1970), 242-6: Deformation Behavior of ShapedFue1 Cores During Hol1ing of Aluminum Dispersion Fue1 Plates
2640. H.E. Exner, Powder Met. 12, 249-58 (1970): Methods and Significaneeof Particle and Grain Size Contro1 in Cemented Carbide Technology
2641. H.E. Exner et a1., Powder Met.Int. l, 140-6 (1970): New Methods forthe Characterisation of the Structure of Sintered Materials
2642. H.E. Exner and J. Gurland, J.Mater. 2' 75-85 (1970): The Effeet ofSma11 P1astic Deformations on the Strength and Hardness ofTungsten Carbid-Cobalt A110ys
2643. H.E. Exner and J. Gurland, Powder Met. 12 (25), 13-31 (1970): AReview of Parameters Influencing some ~echanical Propertiesof Tungsten Carbide-Cobalt Alloys
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2652. R.D. French, A. Levitt and M.H. Richman, Amer.Ceram.Soc.Bull. ~,580-3 (1910): 1nterfacially Active Metals in Metal-CeramicComposites
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2654. N. Fuschillo et al., J.Mater.Sci. ]2, 1018-86 (1910): Electricaland Tensile Properties of Cu-Th02, Au-Th02' Pt-Th02 andAu-A1203' Ft-A1203 Alloys
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2658. G. Giacchetti ULDd J. Ränsch, EUR-4504 d (1970): Untersuchung bestrahlter Materialien mit der Mikrosonde, erläutert anU02-Mo und U02-Zirkaloy-Spaltstoffcermets
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2682. G. Jangg, R. Kieffer, E. Gugel, G. Jicinsky und W. Kollwentz, Ber.Deut.Keram.Ges. jI, 563-10 (1970): Untersuchungen an Cermetsaus Th02-Ni(Co) und Zr02-Mo mit Chrom-Zusatätzen
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2691. D.L. Keller, BMI-1886 B (1970): Technology of Nuclear Fuels for Advanced Fst Reactors
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2110. R.W. McLung, ORNL-4600 (1910), 246-1: Development of NondestructiveInspection Techniques; E.E. Foster and S.D. Snyder: RadiationScattering - Establishment of Standards for Eurned U
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Meadows, U.S. Patent 3,515,540 (1910): Mixed Cobalt TungstenCabide Powders
Miller, B. Hardiman and G.A. Shirn, J.Apll.Phys. !h, 1850-6(1910): Transport Properties, Microstructure and ConductionModel of Cosputtered Au-Si02 Cermet Films
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2726. Yu.V. Miloserdin, Methods for Studying Refractory Materials (Atomizdat, Moscow, 1970)
2727. G.F. Mitsohkevitsch et al., Poroshk.Met. lQ, 60-5 (1970): Ag-CuOSintered Bodies
2728. C.F. Morel, EUR-4482 e (1970): Surface Tensions of Molten Salts andContact Angle Measurements of Molten Salts on Solids
2729. N.R. Morrow, Ind.Eng.Chem. 62 (6), 32-56 (1970): Physics and Thermodynamies of Capillary Action in Porous Media
2730. D. Moscowitz and M. Humenik, paper: Int.Powder Met. Conf., New York1970: High Strength Tungsten Carbides
2731. E.M. Müller, Atomwirt. 12, 434-5 (1970): Untersuchung der Abhängigkeit der thermischen Leitfghigkeit von Oxid-Brennstoffen vonder Porositl:tt
2732. S. Nazare und G. Ondracek, peper: Deutsche Ges.f.Metallkunde, Ausschuss f. Verbundwerkstoffe, Konstanz 1970: Aufbau und Eigenschaftsbeziehungen bei Cermets
2733. S. Nazare, G. Ondracek und F. Thümmler, paper: 3. Int. Tagung 'Fortschritte in der Metallographie', Leoben 1970: Quantitative Gefügeuntersuchungen zur Reaktionskinetik von instabilen Dispersionen
2734. S. Nazare, G. Ondracek and F. Thümmler, KFK-1236 (1970): Relationbetween Stereometrie Microstructure and Properties of Cermetsand Porous Materials
2735. R.P. Nelson and J.J. Rasmussen, J.Amer.Ceram.Soc. 22, 527 (1970):Composite Solidification in the Systems Cr203-Mo, Cr203-Re,Cr203-W, and MgO-W
2736. J.E. Nerly, W.H. Boyer and C.A. Martinek, Bull.Amer.Ceram.Soc. ~,710-3 (1970): Sintered ~~-Cr Granules for New RefractoryMaterials
2737. S. Nomura et al., J.Nucl.Sci.Tech. 1 (7), 54 (1970): Compatibi1ityof Tantulum with Uranium Carbide at High Temperatures
2738. G. Ondracek, KFK-1131 (1970), 7-19: Anwendung metallographischer Methoden auf Keramiken, Cermets und Sintermetall. I. AllgemeineEinführung; IL Arbeitsvorgl!nge (reprinted from Prakt.MetalLogr-, 2., 152-9 (1968»
2739. G. Ondracek und C. F~usser, KFK-1131 (1970), 20-3: MetallographischeUntersuchungen an Metal-Keramik-Schichten (reprinted fromPrakt.Metallogr. i, 112-5 (1966»
2740. G. Ondracek, B. Leder und C. Politis, KFK-1131 (1970), 39-52: Quantitative Schliffprl:tparation bei Metall-Keramik-Kombinationen(reprinted from Prakt.Metallogr. 2., 71-84 (1968»
2741. G. Ondracek und U. Ludwig, KFK-1131 (1970), 60-7: Veränderungen imOberfll:tchenbereich metallographisch prl:tparierter Proben (reprinted from Prakt.Metallogr. 2., 369-76 (1968»
2742. G. Ondracek und D. Schmidt, paper: Deutsche Ges.f.l~etallkunde,Ausschuss f. Verbundwerkstoffe, Konstanz 1970: Thermische Elektronenemission von Cermets
2743. G. Ondracek and B. Schultz, Rev.Int.Haute Temp.Refract. 1, 397-401(1970): The Electrical Conductivity of Cermets
2744. G. Ondracek, B. Schulz und F. Thümmler, KFK-1282 (1970): Zur Leitfl!higkeit von Cermets
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2746. G.C. Padgett et al., Sci.Ceram.l, 281-318 (1970): Deformation Behavior of Heterogeneous Materials at High Temperature
2747. E. Pärnama and H. Jonsson, paper: BISRA.-ISI Conf. Materials forMetal Cutting, Scarborough 1970, ISI preprint 126, p.131-4:Influence of the Binder-Phase Composition of Cemented Carbideson the Strength and Wear Resistance in Turning
2748. T.C. Paine, U.S. Patent 3,579,390 (1970): Method of Making a Cermet
2749. A.V. Panstovskii, Poroshk.Met. 1970, No.4, 60-5: Wear of ElectrodeTools in Electromagnetic Machining
2750. J.A. Pask, UCRL-19 155 (1970), 145: Microstructure and Behaviour ofCeramic Materials; Glass and Ceramic-Metal Systems
2751. V.M. Patarini and T.Z. Kattamis, paper: ASM Mater.Eng.Congr. andMet.Soc.AlME, Cleveland 1970: Structure and Property Studiesin Unidirectionally Solidified Co-NbC Eutectic
2752. P. Patriarca and D.J. Rucker (eds.), ORNL-4520 (1970), 265-94: Development of Fuel Element Fabrication
2753. J.A. Patterson (Sondell Res.Dev.Comp.), U.S. Patent 3,577,294 (1970):Process of Coating Particles with Metals
2754. J.G. Perkins and P.T. Stroud, AWRE-0-9/70 (1970): Thin Film CermetStructures Formed by Ion Bombardment
2755. G. Peterson, paper: Metal Matrix Composites, Amer.Soc.Met., St.Paul1970: Advanced Composite Development
2756. S. Peterson and C.B. Curtis, OF~1-4503 (1970): Thorium Ceramics DataManual. Vol.1, Oxides; Vol.2, Nitrides
2757. C. Politis und S. Ohtani, KFK-1131 (1970), 23-38: ~6g1ichkeiten zurchemischen !tzung keramischer Stoffe (reprinted from Prakt.Metallogr. i, 401-16 (1967»
2758. C.B. Pollock and H.H. Stadel~ier, Metallurg.Trans. 1, 767-70 (1970):The Eta Carbides in Fe-W-C and Co-W-C Systems
2759. J.J. Rasmussen and R.P. Nelson, AD-711 964 (1970): Surface Tensionand Density of Molten Alumina
2760. S.K. Rhee, J.Amer.Ceram.Soc. 22, 386-98 (1970): Wetting of Ceramicsby liquid Aluminum
2761. S.K. Rhee, J.Amer.Ceram.Soc. 22' 426-7 (1970): Wetting of AINandTiC by Liquid Lead
Rhee, J.Amer.Ceram.Soc. 22, 639-48 (1970): Wetting of AIN andTiO by Liquid Ag and Liquid Cu.
Rice, D.J. Fontugne, R.G. Latini and A.J. Barduhn, Ind.Eng.Chem.62 (6), 23-31 (1970): Anisotropic Permeability in Porous Media
Richt, ORlfL-4480 (1970), 218-9: Correlation of Cermet Swellingwith Fabrication Voids
Richt, M.M. Martin and W.R. Martin, ORNL-4569; ORNL-4570 (1970),127-35: Postirradiation Examination and Evaluation of Tur~ten
Urania Cermets
Romaskov, N.I. Timofeeva, K.I. Frolova and I.V. Romanovich, Sov.Powder Met.Metal Ceram. 1970, No.9, 762-6: Reactions of Nickelwith Samarium Hexaboride and Boron
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2767. P. Rowcroft, J.Phys.E, Sci.lnstr. i, 211-3 (1970): Ceramic-to-Meta1Seals Meta11ized by Sputtering
2768. E. Rudy, AD-713 150 (1970); AD-713 153 (1970): Experimental PhaseEqui1ibria of Se1ected Binary, Ternary, and Higher OrderSystems. Pt.7, The phase diagram Ti-V-C; Pt.1, The phasediagrams of the systems Ti-Nb-C, Ti-Ta-C and Ti-Mo-C
2769. 0. Rüdiger, D. Hirschfeld, A. Hoffmann, J. Ko1aska and G. Ostermann,paper: Int.Powder Met.Conf, New York 1970: Composition andProperties of the Binder Meta1 in Coba1t-Bonded Tungsten Carbides
2770. o. Rüdiger, G. Ostermann und H. Kolaska, Techn.Mitt.Krupp~, 33-54(1970): Einige neuere Ergebnisse und Probleme bei der Erforschung von Hartmetallen
2771. G.V. Samsonov (ed.), Refractory Carbides (Naukova Dumka, Kiev, 1970)
2772. D.J. Sandstrom, U.S. Patent 3,517,432 (1970): Diffusion Bonding ofCeramics
2773. A.W. Searcy, in: A.\v. Searcy (ed.), Chemical and Mechanical Behaviorof Inorganic Materials (Wiley, New York, 1970), 57-79: Reactionsof High-Temperature Materials
2774. H. Schneider und D. Schönwald, KFK-1292 (1970): Abscheidung von Vanadin auf U02-Kugeln aus der Gasphase
2775. E.G. Schwartz, K.L. Wi1son and J.B. Hornsby, SRO-475-8 (1970): PowderMetallurgy Compaction
2776. J.E. SeIle, J.J. English, P.E. Teane~ and J.R. McDougal, MLM-1706(1970): The Compatibi1ity of 2~8Pu02 with Various RefractoryMetals and Alloys
2777. J.E. SeIle, J.R. McDöugal and D.R. Sch~effer, MLM-1684 (1970): TheCompatibility of P1utonium-238 Dioxide with Platinum and P1a=tinum-Rhodium Alloys
2778. M. Semlitsch, Rev.Techn.Su1zer, No. de recherches 1970, 3-9: Couchesd'interference appliquees par evaporation pour les analysesdes microstructures de materiaux a l'aide de la microsondee1ectronique
2779. R.C. Shank, IN-1426 (1970): Ana1ytical Chemistry Branch Annua1 Report
2780. R. Sifferlen, C. Guichard and J.C. Sorot, French Patent 2,038,858(1970): Manufacture of Composite Reinforced Alloys
2781. A.L. Smith, NASA-TM-X-2130; E-5789 (1970): Survey of Materials forThermionic Converters
Snajdr, BNWL-325 (1970), pt.7.2: Effect of Temperature on Mechanical Properties of Cermets
Snider and W.R. Mouser, CONF-690954; TID-4500 (1970), 192-219:Metallography of some Uranium Plutonium :Fuel Materials
de Souza Santos, Metalurgia (Sao Paulo) 26, 283-9 (1970): Reduction of Powdered U308 by Liquid Aluminium
Spriggs, Powder Met. 12, 369-93 (1970): The Importance ofAtmosphere Control in Hard-Metal Production
Stefanides, Design News l2. (19), 96-7 (1970): Refractory Metalplus MoSi2 Yields Rugged Self-Lubricating Material
Stepanov, Heat Transfer Sov.Res. 1 (4), 18-42 (1970): Concerning the Thermal Conductivity of Two-Phase Systems
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2788. M.A. Stett and R.F. Fulrath, UCRL-19 155 (1970), 155-6: MechanicalProperties and Fracture Behaviour of Chemically Bonded Composites
2789. A.L. Stuijits, Philips Tech~Rev~ 21 (2) (1970): Renaissance ofCeramic Technology
2790. K.R. Sump and R.H. Beauchamp, BNWL-1151 (1970): Metallography ofPolonium-210 Containing Microspheres
2791. H. Suzuki and K. Hayashi, J.Jap.Inst.Metals 2!, 491-6 (1910): Effectsof Additive Carbides on the Strength of WC-IOCo
2792. C.S. Swamy and P. Weimar, Powder Met.Int. g, 134-8 (1970): E1ectricConductivity of Cermets with Idealized Structure between RoomTemperature and 1000 °c
2793. V.G. Syrkin et al., Sov.Powder and Metal Ceramics 1970, N04: ~ispers
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2794. H. Teicher et al., U.S. Patent 3,576,652 (1970): Bonding Liquids forRefractory Material
2795. T.J.W. van Thoor (ed.), Materials and Technology (Longman-de Bussy,Paris, 1970), Vo1.3: Metals and Ores
2796. Y.S. Touloukian et al.,Thermal Conductivity (1F1/Plenum, New York,1970), Vol.2, NonmetallicSolids
2797~ F~ ThUmmler, paper: Deutsche Ges~f~Metallk.unde, Ausschuss f~ Verbundwerkstoffe, Konstanz 1970: Cermet- und Dispersionsbrennstoffe für nukleare Anwendungen
2798. E.M. Trent, paper: BISRA-ISI Conf., Materials for Metal Cutting,Scarborough 1970; IS1 preprint 126, p.lO-5: Wear Processeswhich Control the Life of Cemented Carbide Cutting Tools
2799~ R.R~ Tummala and A.L~ Friedberg, J.Amer~Ceram.Soc.22, 376-85 (1970):Thermal Expansion of (Dispersed) Composites as Affected bythe Matrix
2800. R.R. Tummala and A.L. Friedberg, J.Appl.Phys • .&1., 5104-7 (1970):Thermal Expansion of Composite Materials
2801. M. Ugajin and I. Takahashi, J.Nucl.Mater. 21, 303-13 (1970): PhaseReaction in the UC-W System
2802. A.P. Watts et al., Ceramic Age 86 (7), 125 (1970): Refractories
2803. J. White, in: A.M. Alper, Phase Diagrams (Academic Press, New York,1970): The Relationship of Phase Diagrams to Constitution andMicrostructure in Ceramic and Ceramic-Metal Systems
2804. G.A. Wood, Powder Met. 12, 338-68 (1970): Quality Control in theRard-Metal Industry
2805. R.H.T. Yeh, J.Appl.Phys • .&1., 224-6 (1970): Variational Bounds ofTransport Properties of Composite Materials
2806. R.H.T. Yeh, J.Appl.Phys • .&1., 3353-6 (1910): Variational Principlesof the Elastic Moduli ofComposite Materials
2807. M. Xokohama and T. Sadahiro, J.Jap.Soc.Powder Met. 16, 45-50 (1970):The Influence of Surface Finishing on Crack Length of CementedCarbides
2808. Ch.A. Young, UCRL-20 395 (1970): Strength of Internally StrainedMatrix Composites
2809. A.M. Zakharov, 1.1. Novikov and V.G. Parshikov, Izv.Vyssch.Ucheb.Zavel., Tsvet.Met. 1970, No.6, 106-12: Ternary System Molybdenum-Titanium-Carbon
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V-VO Phase System
2811. R.A. Alfintseva, Sov.Powder Met.Netal.Ceram. 10 (1), 65-8 (1971):Behaviour of Boron Nitride and Alumini~Nitride Particlesin a Molybdenum Matrix
2812. I. Amato and G. Abate-Daga, Rev.Int.Hautes Temp.Refract. Q (1), 2530 (1971): Preparation et etude du cermet moleculaire uraniumdioxid-molybdene
2813. R.L. Andelin and J.D. Watrous, MDC G-2033 (1971): Plutonia/CuriaCompatibility Testing
2814. R.L. Andelin and J.D. Watrous, MDC G-2034 (1971): Refractory-Al1oyCompatibi1ity with P1utonia-238 at High Temperatures
2815. R.L. Andelin and J.D. Watrous, MDC G-2055 (1971): P1utonia/CuriaCompatibility Testing
2816. R.L. Andelin and J.D. Watrous, MDC G-3124 (1971): Plutonia/CuriaCompatibility
2817. Anon., AD-720203; DDC-TAS-79-1-Vo1-1 (1971): Refractory Coatings
2818. Anon., Brit.Patent 1,238,166 (Brit.Patent Abstr. ~ (26), July 1971):Isostatical Pressed Metal Jacketed Cermets
2819. Anon., Brit.Patent 1,238,378 (Brit.Patent Abstr. ~ (26), July 1971):Conductive Ceramic Material with Continuous Metal Network
2820. Anon., Deutsche Ede1stah1werke, Germ.Patent Appl. 1,959,690 (1971):Coating Tool Materials with Nitrides
2821. Anon., Electronics !i, 128-9 (Feb.1971): Resistor Nets Move in Irwa1in-Line Package
2822. Anon., Feldmühle, Germ.Patent Appl. 2,017,367 (Germ.Patent Gaz.I,Chem.~(43), Oct.1971): Shaped Sintered Bodies Containing Refractory Oxides and Heavy Metals
2823. Anon., General Electric, Brit.Patent 1,249,417 (Brit.Patent Abstr.~ (40), Oct.1971): Ceramic-Metal Seals
2824. Anon., IEEE Trans. on Parts, Materials and Packaging, PMP-7, no.1,3-10 (1971): Bibliography and Abstracts on Electrical Contacts, Circuit Breakers, and Arc Phenomena, 1965-1969
2825. Anon., LA-4697 (1971): 238Pu Space Electric Power Fuel
2826. Anon., Mater.Eng. 11 (4) (1971): Materials Selector - p. 421-3,Refractories and Cermets, Fired or Sintered Parts; p. 428,Buyers Guide, Cermets
2827. Anon., MLM-1817 (1971): Mound Laboratory Isotopic Powder FuelsProgram (Jan.-March 1971)
2828. Anon., NAA-SR-12492 (1971): Annual Technical Progress Report(Fiscal Year 1967; unclassified)
2829. Anon., NASA Pech.Brief 71-10116 (1971): Metal-to-Ceramic Seals A Literature Survey
2830. Anon., RISO-M-1350 (1971): Review of Danish Boiling Water Reactor
2831. Anon., Sadem S.A. des Entreprises Minieres, Brit.Patent 1,228,654(1971): Stabilized Substoichiometric Urania-Cermet Fuels
Catalano, J.Solid State Chem. 2' 112-24 (1971):into the Eu-Eu203' the Eu-Pt-Eu203 and the Yb-
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2832. Anon., Sumitomo Electric Industries, Germ.Patent Appl. 2,110,520(Germ.Patent Gaz.I, Chem. Q. (40), Sep.1971): Titanium Carbide Coating of Cemented Carbides by Electrohoresis in CuttingTool Production
2833. Anon., Varian Ass., Germ.Patent Appl. 2,106,120 (Germ.Patent Gaz.I,Chem. Q. (37), Sep.1971): Metal Ceramic Seals
2834. Anon., UCRL-20500 (1971), 147-73: Ceramic Science (Inorg. MaterialsRes.Div., Ann.Report 1970)
2835. Anon., UK Secr.of State of Defence, Brit.Patent 1,249,623 (Brit.Patent Abstr. Q. (40), Oct.1971): Metallizing Substrates Coatings of Al, Zn, Cd or Ti are applied to metallic or nonmetallic substrates, particularly small objects such as fibresand whiskers
2836. Anon., UK Secr.of State of Defence, Brit.Patent 1,249,624 (Brit.Patent Abstr. Q. (40), Oct.1971): Transition Metal CoatingSubstrates - suitable for depositing Cr, Mo, W or Fe ontofibres, whiskers and other surfaces
2837. U. Bäckmann and E. Lehtinen, Rev.Sci.Instr. ~, 508-11 (1971): Quantitative X-Ray Analysis of Tungsten, Carbide-Cobalt CementedCarbides in the Scanning Electron Microscope
2838. W.J. Baxter, Appl.Phys. ~, 2682-8 (1971): Work Function of Tantalum Carbide and the Effects of Absorption and Sputtering ofCesium
2839. R.G. Bedford and E.InvestigationYb203 Systems
2840. T.F. Berry et al., Ceramic Age~ (3), 25 (1971): How EngineeringEvaluation Solved (Ceramic, Metal) Seal Problem
2841. V.P. Bondarenko, V.V. Morozov and L.V. Chernyak, Sov.Powder Met.Metal.Ceram. 1Q (1), 57-61 (1971): Reaction of Lanthanum andCerium Hexaborides with Refractory Metals
2842. C.E. Eoyer, J~E. Hatfield and F.D. Orcutt, Mech.Eng• .22. (2), 33-9(1971): Hot Isostatic Pressing
2843. D. Erucklacher, W. Dienst, T. Dippel, O. Götzmann, P. Hofmann, H.Holleck, H. Kleykamp, W. Siebmanns und F. ThUmmler, New Techniques
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2844. E. Euehler, J.H. Wemick and J.L. Shay, Mater.Res.Eu11. ~, 303-9(1971): CdP2-Sn System and some Properties of CdSnP2 Crysta1s
2845. D.D. Bump, MLM-1802 (1971): Methods and Materials for Encapsulation(A Literature Survey)
2846. C.A. Calow, P.D. Bayer and 1.1. Porter, J.Mater.Sci. ~, 150-5 (1971f.Solid-State Eonding of Nickel, Chromium and Nichrome Sheetsto (l(.-A1203
2847. W.E. Campbell et al., Amer.Ceram.Soc.Eull. 2Q, 938 (1971): Apparatusfor Contact Angle Measurement
2848. M.G. Chasanov, J. Fisher, D.R. Fredrickson, S.D. Gabelnick, L.Leibowitz, A.D. Tevebaugh and R.C. Vogel, ANL-7820 (1971): Chemical
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2849. N. Claussen, G. Petzow and J. Jahn, paper: 3rd Powdermet. Conf.,Zakopane 1971; Proo. i, 32- : Eigensohaften von A1203-FeCermets mit untersohiedlioher Phasenhaftung
2850. P. Conrad, Resistor Materials 1971 (Noyes Data Corp., Park Ridge,N.J., 1971)
2851. M. Contre et al., Powder Met.Int. i, 33-6 (1971): The Behaviour ofWC-Co Compositions under high Pressure
2852. F.W. Crossman and A.S. Yue, Met.Trans. ~, 1545-55 (1971): Unidirectionally Solidified Ti-TiB and Ti-Ti5Si3 Euteotio Composites
2853. W.E.A. Davies, J.Phys.D i, 318-28 (1971): The Theory of CompositeDieleotrios
2854. W.E.A. Davies, J.Phys.D i, 1176-81 (1971): The Elastio Constants ofa Two-Phase Composite Material
2855. P.B. Deshpande, Thesis, Arkansas Univ., Fayetteville (1971): Effeotof Partiole Spatial Distribution on Thermal Conduotivity ofTwo-Phase Systems
2856. T.E. Dunham, Met.Trans. ~, 2797-804 (1971): Effect of Deformationof Th02 Particle Morphology in W-l wt. per oent Th02 Materials
2857. K.E. Erhardt, NYO-4117-3 (1971), SKF Industries AL-71-C-005: ALiterature Review and Materials Evaluation for Rolling Bearings Operating in Liquid Sodium in the Temperature Range8000F to 12000F
2858. G. Ervin, Amer.Ceram.Soo.Bull. 2Q, 659-61 (1971): Uranium and Plutonium Carbides with Tungsten Additive
2859. H.E. Exner, in: H.H. Hausner (ed.), Modern Developments on PowderMetallurgy (Plenum, New York, 1971), Vol.4, 3l5~25: GrainGrowth in Liquid=Phase Sintering of Carbides
2860. R.E. Fitzharris, M.D. Kel1y and J.E. Selle, MLM-1809 (1971):Metallographio Analysis of Dart ]I Heat Souroe Capsule
2861. C.A. Foehl und S. Nazare, Atomkernenergie 11, 245-50 (1971):Technologie von U02-/Pu02-Brennelementen
2862. C.A. Foehl und G. Ondraoek, Atomkernenergie 11, 158-62 (1971):Pulvermetallurgisohe Herstellung von U02-/Pu02-StahlFormkörpern
2863. J.P. Giltrow, Composites ~, 228-30 (1971): A possible Source ofPorosity in Composites
2864. V.G. Gopienko, Ogneupory No.6, 55-8 (1971): Conatact Interaotionof Metallic Titanium with Oxide Refraotories
2865. H. Goretzki, H.E. Exner and W. Scheuermann, in: H.H. Hausner (ed.),Modern Developments in Powder Metallurgy (Plenum, New York,1971), Vol.4, 327-37: Eleotronic Structure of RefractoryCarbides with Relation to Wetting
2866. J.P. Guha, J.Nuol.Mater. ih, 187-94 (1971): Phase Equilibrium Relationship in the System UN-UC-Fe
2867. J. Harvey et al., Thin Solid Films ~ (6), 427- (1971): SputteredAu-Ta-O Cermet for Thin Film Resistors (A Preliminary Survey)
2868. R. Haynes, PowderMet. 11 (27), 64-71 (1971): Effeot of PorosityContent of the Tensile Strength of Porous Materials
2869. J.C. Hebeisen, D.P. Moak and W.H. Pfeifer, EMI-1895 (1971): Compatibility of Nitride Rector Fuels with Austenitio StainlessSteel
2889. P.
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2870. E.N. Hodkin, D.A. Mortimer, M.G. Nicho1as and D.M. Poo1e, J.Nuc1.Mater• .22, 59-68 (1971): Surface and Interfacia1 Energies ofthe Uranium-Uranium Carbide System
2871. A. Hoffmann und P. Pant, Techn.Mitt.Krupp, Forschungsber. ~ (1),15-21 (1971): Untersuchungen an Europiumoxid-Cermets als Kontro11e~ent für Kernreaktoren
2872. G. Jangg et a1., Ber.Deut.Keram.Ges. ~, 282-8 (1971): Anwendungvon Tränkverfahren bei der Cermet-Herste11ung
2873. B.O. Jaensson, 11ater.Sci.Engng ~ (1), 41- (1971): Residual Stressesand Stress-Strain Behavior of the WC-Co Composite Material
2874. T.J. Jorganson, U.S.Patent 3,598,435 (Off. Gazette U.S.Patent Office889 (2), Aug.1971): Ceramic-Metal Bonding Composition andComposite Artic1e of Manufacture
2875. o. Jung et a1., Cobalt No.53, 214- (1971): Sintering of Cobalt andi ts Alloys Containing 10 %Carbides
2876. A.I. Kaznoff and M.O. Mar10w, U.S. Patent 3,579,390 (1971): Methodof Making a Cermet
2877. E.C. Kedward, B. Kiernan, R.A. Duffin, Brit.Patent 1,220~331 (1971):Improvements in and Relating to the Electro-Deposition of Composite Coatings
2878. E.C. Kedward, B. Kiernan, A. Godfrey, Brit.Patent 1,220,332 (1971):II"Janufacture of Nuclear Fuel Elements
2879. M.D. Ke11yand J.E. SeIle, 11LM-OP-71006; CONF-710902-4 (1971): Quantitative Analysis of a Cermet Sphere
2880. P. Kenny, Powder Met. 1i (27), 22-39 (1971): The App1ication ofFracture Mecr~nics to Cementec Tungsten Carbides
2881. J.T. Klomp, Powder Met.Int. i, 142-6; 193-4 (1971): Recent Deve1opment of Bonding Ceramics to Metals
2882. F. Koe1bl, Planseeber.Pu1vermet. ]2, 18-24 (1971): Vorrangstellungvon Wolfram-Karbid bei Hartmetallen
2883. H.W. Köhler, Techn.Rundschau ~ (23)(1971): Werkstoffe für die Raumfahrt, S.41: Keramische und metallkeramische Stoffe (Cermets)
2884. P. Kneisel, O. Stoltz, J. Halbritter, H. Diepers, H. 11artens, R.K.Sun, Proc.8thInt.Conf.High-Energy Accelerators (CERN, Geneva, 1971),
275-81: RF-Losses of Superconducting Niobium Cavities Coatedwith Nb205
2885. N.H. Krikorian, J.Less Gommon Met. ~, 271-9 (1971): Rection of Se1ected Lanthanide Carbides with Platinum and Iridium
2886. H. Kukral et a1., J.Phys.E i, 65-7 (1971): Ceramic-Metal Sealingwith Solder Glass
2887. E. Lamb, ORNL-4692 (1971): ORNL Isotopic Power Fuels (Quart.ReportPeriod Ending March 1971)
2888. E. Lamb, 0RNL-4723 (1971): ORNL Isotopic Power Fuels (Quart.ReportPeriod Ending June 1971) . \
Lamparter, S. Steeb and A. Guke1berger, paper: 7th Plansee Seminar, Reutte/Tirol 1971: Diffusion Measurements in the SystemsPd-V and Pd-Ti as weIl as in Metal-Ceramic Systems by Meansof a Microprobe
2890 . C.O. Leiber, Planseeber.Pulvermet. ]2, 25-36 (1971): DYnamischesVerhalten disperser inhomogener Systeme
- 152 -
2891. H. Leibold und B. Roenigk, Z.Metallkde 62, 270-3 (1971): Keramischeund Cermet-Materialien fUr hochbeanspruchte Pressmatrizen
2892. V.V. Letunovskii, V.N. Androsov and E.A. Petrovskii, Sov.Powder Met.Metal.Ceram. lQ, 244-6 (1971): Preparation of Mixtures ofTungsten Carbide and Cobalt by Means of Ultrasonic Vibrations
2893. G.E. McConald, Trans.Amer.Nucl.Soc. ]&, 566-7 (1971): IrradiatingMolybdenum-Uranium Dioxide Cermet Fuel Pins at 16000F to 5.3per cent Burnup
2894. A. Malliaris and D.T. Turner, J.Appl.Phys. ~, 614-8 (1971): Influence of Particle Size on the Electric Resistivity of Compacted Mixtures of Polymerie and Metallic Powders
2895. G.P. Marino, J.Nucl.Mater. ~, 178-90 (1971): The Porosity Correction Factor for the Thermal Conductivity of Ceramic Fuels
2896. M.M. Martin and R.G. Donnellly, Trans.Amer.Nucl.Soc. ]&, 576-7(1971): Fabrication of Helium Permeable Cermets for Application to Curium Fuels
2897. R.P. May, SC-DR-70~908 (1971): Hugoniot Relationship for a highDensity, Distended Cermet (Thoria-Molybdenum)
2898. G.W. Mellors and S. Senderhoff, J.Electrochem.Soc. 118, 220-5 (1971}.Electrodeposition of Coherent Coatings of Refractory Metals.7. Zirconium Diboride
2899. E. Meyer, U.S.Patent 3,601,855 (Off.Gaz. 889 (5), 31 Aug.1971):Apparatus for Forming a Composite Metal-Ceramic Article(Sealing)
2900. J.E. Morris and A.D. Booth, Radio and Electronic Eng. ih, 163-71(1971): Rate Control for Vacuum Co-Deposition of Thin-FilmCermets
2901. D. Moskowitz et al., in: H.H. Hausner (ed.), Modern Development inPowder Metallurgy (Plenum, New York, 1971), Vol.5, 225-34:High-Strength Tungsten Carbides
2902. S. Nazare und G. Ondracek, Atornkernenergie 11, 251-4 (1971): Eigenschaften von U02-/Pu02-rostfreier Stahl
2903. S. Nazare, G. Ondracek and F. Thümmler, in: H.H. Hausner (ed.),Modern Development in Powder Metallurgy (Plenum, New York,1971), Vol.5, 171-186: Relations between Stereometrie Microstructure and Properties of Cermets and Porous Materials
2904. R.J. Nelson and D.R. Milner, Powder Met. 11 (27), 39-64 (1971):Liquid-Flow Densification in the Tungsten Carbide-CopperSystem
2905. V.A. Nikolayeva, in: Materials for MHD Generator Channel (Nauka,Moscow, 1969; transI.: Joint Publ.Res.Serv., Washington, D.C.,1971), 177-82: Certain Properties of Refractory Cermets
2906. G. Ondracek und B. Schulz, Ber.Deut.Keram.Ges. ~, 427-34; 525-8(1971): Zur Leitfähigkeit von Cermets und anderen mehrphasigen Werkstoffen. I. Theoretische Ansätze zur Konzentrationsund Stereometrieabhängigkeit des elektrischen Widerstandes;lL Ableitung der Konzentrations- bzw. Stereometriefunktiondes elektrischen Widerstandes aus der Feldgleichung
2907. G. Ondracek und K. Spl{chal, Ber.Deut.Keram.Ges. ~, 343-54 (1971):Cermets in Zustandsdiagrammen
- 153 -
2908. S.S. Ordan'yan, N.V. Kosterova and A.I. Avgustinik, Inorg.Mater.(USSR) 1 (1), 57-9 (1971): Structure of Alloys in the SystemTa-C-Re
2909. E. Pamama et al., Powder Met.Int. 1, 131-3 (1971): Processing Parameters in the Production of Cemented Carbides
2910. J.A. Pask, LBL-166 (1971): Chemical Reactions and Adherence atGlass-Metal Interfaces
2911. J.A. Pask, UCRL-20500 (1971), 157-63: Microstructure and Behaviourof Ceramic Materials - Glass and Ceramic-Metal System
2912. C. Politis, J.Nucl.Y~ter. 22, 258-64 (1971): Das System Uranmonokarbid-Wolfram
2913. C. Politis, F. Thümmler und H. Wedemeyer, J.Nucl.Mater. ~, 93-104(1971): Untersuchungen der Systeme UN-Mo und UN-W bei hohenTemperaturen
2914. D.T. Rankin, DP-1270 (1971): Hot-Pressing Techniques for FabricatingCm203 for Radioisotopic Fuel Forms
2915. D.T. Rankin et al., J.Amer.Ceram.Soc. 2i, 277-82 (1971): Hot-Pressingand Mechanical Properties of A1203 with an Mo-Dispersed Phase
2916. S.K. IL~ee, J.Amer.Ceram.Soc. 2i, 332-4 (1971): Wetting of Ceramicsby 1iquid Metals
2917. E.I. Riegner et al., Exp.Mechanics 11 (1), 38-45 (1971): AluminiumReinforced Epoxy Models
2918. R.F. Rolsten et a1., Powder Met. l! (27), 86-93 (1971): OxidationProtection Mechanism during the Sintering of Mo-FeSi2 Mixtures
2919. K.S.B. Rose, J.Inst.Nucl.Engrs 12 (4), 95-100 (1971): Coated Particle Fuels
2920. 0. Ruediger, D. Hirschfeld, A. Hoffmann et al., Techn.Mitt.Krupp,Forschungsber. ~ (1), 1-14 (1971); in: H.H. Rausner (ed.),Modern Development in Powder Metallurgy (Plenum, New York,1971), Vol.5, 215-24: Composition and Properties of the Binder Metal in Cobalt Bonded Tungsten-Carbide
2921. D.J. Sandstrom and D.S. Fisher, LA-4752 (1971): High-Energy RateForming of Refractory Metals
2922. E. Santa Marta, Diss. Univ. Stuttgart 1971: Zur Gefügeausbildungvon gesinterten Karbid-Metal1-Systemen
2923. 1.J. Schwartz, M. Kolodney and R.A. Graff, Met.Trans. ~, 1429-32(1971): Kinetics of Interaction of Tanta1um Disi1icide withTantalum and other Metals
2924. J.E. SeIle and K.1. Breakal1, MLM-1853 (1971): Metallographie Investigation of Two Large Radioisotopic Heat Source (LRHS)Capsu1es
2925. 1.1. Sivo, Proc.IEEE 22, 317-8 (1971): App1ication of MechanicalStress for Studying the Interface Properties of the Si-Si02System
2926. K.E. Spear et al., High Temp.Sci. 1, 26-9 (1971): Phase Investigations in the U-Cr-N System
2927. C.D. Starr, J.Mater. ~ (1), 105 (1971): Metal-Metal Oxide Reactions
2928. M.H. Tikkanenn, S. Ylaesaari and K. BIomster, Phys.Sintering 1, 1-27(1971): Wetting Problems in Connection with Sintering
- 154 -
2929. J.B. Walsh, J.Appl.Phys • .&6" 1098-2000 (1971): First Pressure Derivative of Bulk Modulus for Porous Materials
2930. F.F.Y. Wang, Mater.Sci.Eng. 1, 109-16 (1971): Calculation of theElastic Moduli of Binary Comp sites
2931. H. Watanabe, T. Kurasawa, T. Kikuchi, K. Furukaw and I. Nihei, J.Nucl.Mater. ~, 213-20; 236-8 (1971): Reaction between UraniumCarbides and Liquid Sodium; Interaction between Uranium Carbideand Liquid Sodium with a small Oxygen Content
2932. R.K. Williams, T.E. Banks and D.L. McElroy, ORNL-4660 (1971): Measurement and Correlation of Thermal Resistance of UN-Metal Interfaces
2933. M. Yamawaki et al., J.Nucl.Mater. 22, 209-18 (1971): High TemperatureReaction between Uranium Monosulfide and Zirconium
2934. R.H.T. Yeh,J. Appl.Phys • .&6" 1101-3 (1971): Variational Bounds ofthe Elastic Moduli of Two-Phase Materials
Appendix
2935. Anon., International Atomic Energy Agency, Bibliographie Series,STI!PUB!21!14 (1964): Uranium carbides, nitrides and silicides(1961-63); STI!PUB!21!21 (1966): Uranium carbides, nitridesand silicides (1963-65); STI!PUB!21!33 (1968): Uranium carbides, nitrides and silicides (1966-67)
2936. Anon., International Atomic Energy Agency, Bibliographie Series,STI!PUB!21!39 (1970): Thorium Fuel Cycle
2937. Anon., International Atomic Energy Agency, Proceedings Series,EP!l (1961): Fuel Element Fabrication with special Emphasison Cladding Materials
2938. Anon., International Atomic Energy Agency, Proceedings Series,STI!PUB!77 (1963): New Nuclear Materials including non-metallicFuels
2939. Anon., International Atomic Energy Agency, Proceedings Series,STI!PUB!58 (1962): Thermodynamics of Nuclear Materials;STI!PUB!162 (1968): Thermocynamics of Nuclear Materials
2940. Anon., International Atomic Energy Agency, Review Series, STI!PUB!15!25(1962): Fabrication of Fuel Elements
2941. E.K. Storms, The Refractory Carbides (academic Press, New York, 1967)
2942. L. Bilefeld (ed.), Proc.Int.Symp. on Powder Coatings (Office Publ.,London, 1968)
2943. K. Splichal, Ustav Jad.Vyzk., Prag (1968), Nr.1996: Ursachen derschlechten Korrosionsbeständigkeit von Mg-Mgü Cermets
2944. Anon., French Patent 1,573,897 (1969): Aluminium Products Strengthened by Dispersions
2945. T.W. Butler, Thesis, Brown Univ., Providence, 1969 (University Microfilms 70-8698): Futher Look at WC-Co from the Continuum Viewpoint
2946. J. Chevillon and L. Pons, Mecan.Elec. ~ (12), 9-20 (1969): Wearand Deformation of Sintered Tungsten Carbide in Contact withRocks
- 155 -
2941. F.J. Clauss, Engineer's Guide to High-Temperature Materials (AddisonWesley, Reading, Mass., 1969)
2948. T.E. Christen, Thesis, Denver Univ., Colorado, 1969): ElectricalConduction in Cermet Films
2949. P.K. Conn and E.C. Duderstadt, GEMP-682 (1969): Fission ProductTransport Process in Refractory Metal-Fuel Systems
2950. T.P. Fidelle, Thesis, Massachusetts Univ., Amherst, 1969): EffectiveThermal Conductivity in Composite Solids
2951. E.J. Lumley and L.M. Gillin, J.Austral.Inst.Met. 1!, 266-10 (1969):Diffusion in SiC-Cr Composites
2952. W. Michel, Tech.Mitt. Krupp, Forschungsber. ~ (3/4), 19-82 (1969):Thermische Leitfähigkeit gesinterter Karbide bei hohen Temperaturen
2953. N.A. Olschanski et al., Sb.Stat.Mosk.Vysch.Techn.Utsch.I.Baumany(1969), No.132, 13-9: EB-Schweissen von A1203-Metall Cermets
2954. G.V. Samsonov, G.V. Plyushch and G.A. Pryadka, Met. 1969, No.8, 11-7;Sov.Powder Met.Metal.Ceram. 1969, 660-4: Rheological Properties of Hard-Alloy Mixtures Plasticized by Paraffin
2955. D. Schmidt, JUL-Conf. i, 36-45 (1969): Erzeugung von Cermet-Elektroden
2956. C.P. daSilva, H. Carvalhinhos and O.A. Sampaio, LFEN-NI-53-a (1969):Techniques for Preparation Of U02-Niobium (or Molybdenum) Cermets
2951. T.D. de Souza Santos and D. Tharcisio, Metallurgia (Sao Paulo) ~,281-5 (1969): Pyrometallurgical Treatment of U308~Al FuelElements
2958. J.L. Tarpley, NASA-TM X 63639 (1969): Cermet Thin-Film Resistivity
2959. W.M. Wheildon, Ceramic Ind.Mag. ~ (3), 52-5 (1969): Ceramic Coatings by Thermal Spraying
2960. S. Nazare and G. Ondracek, BMBW-FB-K 10-01 (1910), 631-41: ThermalExpansion of Cermets
2961. S.C. Carniglia, J.Amer.Ceram.Soc. 21, 591 (1911): Discussion of"Hot Pressing and Mechanical Properties of A1203 with a MoDispersed Phase"
2962. K. Spieler, Prakt.Metallogr. 2, 21-31 (1912): Der Einfluss verschiedener Diamantpoliermittel auf die Schliffgüte von Cermets. TheInfluence of Different Diamond Polishing Pastes on the PolishedSurface Quality of Cermets
Closing date: January 1972
- 157 -
AUTHOR INDEX
Abate-Daga, G. 2354, 2568, 2812Abrams, E.I. 2349Abrams, R.H. 1033Abbott, B.W. 1149Abbott, H.M. 1264Accary, A. 1034, 2411, 2569, 2510Ackermann, R.J. 1593, 2355Adamec, J.B. 461Adams, C.M. 2162Adams, D.W. 2356, 2489Adams, R.E. 1148Adams, R.M. 1265Adams, V.1. 1035Adamson, G.M. 1036, 1418, 1438,'
1514, 1914, 2135, 2250,2351, 2358, 2511
Addison, C.C. 1594Adrianova, M.N. 581Affleck, J.H. 1031Agace, C. 1150Agte, C.R. 256, 194, 1038Ahlert, R.H. 2152Ahmann, D.M. 531Aitken, E.A. 2191Akins, R.J. 1699, 1184Akiro Hara 2224, 2225Aksenov, G.I. 1595Albertsen, A.E. 1596Alekseeva, N.A. 195, 860, 1208Alexander, D.G. 2810Alexander, G.B. 1915Alexander, J.A. 2936Alexandrova, L.I. 2039Alfille, 1. 1150Alfintseva, R.A. 2811Allen, A.C. 1151, 2512Allen, B.C. 196, 2513Allen, C.M. 905, 923, 1228Allen, N.D. 251Allen, W.A. 324Al1igero, R.A. 184, 258Ali, M.A. 1916Alpes, A.M. 2514van Alsten, R.1. 1200Altmann, A.B. 342Altmeyer, G. 1305, 1306, 1631
1186Amato, I. 1419, 1420, 1591, 1598,
1152, 1911, 1918, 1919,1981, 2131, 2138, 2354,2564, 2812
Amberg, S. 695, 1266Ambler, J.F.R. 1039Ambrosio, F.F. 2652Amma.nn, E. 86Ammon, R.V. 1261
D~Amore, M.R. 430Andelin, R.1. 2813, 2814, 2815, 2816Anders, N.R. 1140Anderson, 0.1. 1892Anderson, P.B. 1920, 1926Anderson, R.W. 2516Ando, M. 1841D'Andrea, G. 2515, 2626Androsov, V.N. 2892Anicetti, R.J. 118Anishenko, L.M. 2359, 2414, 2598AnselI, G.S. 2494Antonova, E.A. 2145Apininskava, L.M. 1214Appen, A.A. 1921, 2146Arabei, B.G. 2601Arbites, W. 1154Arias, A. 1164Armantrout, C.E. 1204Ardizzone, L. 1918, 1919, 2137Armstrong, D.J. 803Armstrong, W.M. 1155, 1275Arnold, J.1. 1898Arnold, R. 1854Aronin, L.R. 1101Artamanov, A.J. 1608, 1928, 1929,
1930Artamanov, A.Y. 1156, 2371Arthur, G. 1433, 1609, 1765Artolucci-Luyckx, S.B. 2147Asanti, P. 650Asaud, C.A. 1640Astbury, N.B. 1873Astrakhantsev, S.M. 1355, 1537Ault, C.M. 1753Ault, G.M. 101, 263, 676, 849Ault, N.N. 542, 1157Avdasev, V.I. 1433Aves, W.L. 804, 805Avgustinik, A.I. 715, 934, 1931,
2372, 2498, 2599, 2908Ayer, J.A. 2600Aylmore, D.W. 1088
Babich, M.M. 2373, 2374Backhaus, K. 651Bacon, J.F. 1276Baehr, VI. 1932Mckmann, U. 2837Baes, 3.L. 1280Baharinova, V.I. 2190Bailey, G.A; 1809Baird, J. 806, 808Bakarinova, V.F. 2601Baker, L. 1281, 1435
Bakish, R. 1158Ba1achandra, J. 1185Ball, L.L. 2375Ballard, VI.E. 1277Ballas, VI. 264Ba11if, J. 1278Balschin, M.J. 1282Balyaev, A.I. 935Bane, R.VI. 1047Banerjee, J.O. 2148Banerjee, S.P. 2148Banks, T.E. 2932Baranov, A.I. 795, 1436Baranov, A.J. 387, 594Barduhn, A.J. 2763Bards1ev, J. 1766, 1933Bardzi1, P. 374Bargero, G.G. 1087Barker, M.G. 1594Barksda1e, J. 37Bar1ett, E. 1159Barnes, C. 1281Barnes, E. 439, 640Barnes, G.VI. 544Bar.net, F.R. 1767Barr, H. 1279Barr, H.N. 191, 522Barron, S. 2376Barta, J. 1048, 1293Bartascher, I.L. 1049Bartolucci, S. 1768Barton, C.I. 1700Rasche, M. 265, 652Baschkiron, S.I. 1437Basch1ukov, S.B. 2472Basham, S.J. 653Baskin, M.L. 1140, 1283, 1581Baskin, Y. 654Bateman, J. 84Batra, V.K. 2633Bätz, o. 543Batzies, P. 2149Baumgartner, u, 2602Baver, A.M. 409Baxley, A.L. 2150Baxter, J.R. 350, 440, 1284Baxter, W.G. 2378, 2838Bayer, P.D. 2846Bean, C.H. 1357Beard, A.P. 545, 655Beauchamp, R.H. 2790Beaver, I.R. 1094, 1438Beaver, R.J. 351, 441, 546, 635,
672, 807, 1036, 1057,1144, 1149, 1160, 1358,1577, 2033
Beaver, R.S. 556Beaver, W.W. 352, 442Beckerman, M. 1050
- 158 -
Bede11, J.R. 833Beek, van L.K.H. 1934Bedford, R.G. 2603, 2839Bei1ina, L.V. 1350Bell, R.L. 2508Bell, W.C. 353Be1enkaya, L.I. 1251Be1enkanina, R.G. 2151Bender, J.H. 1935Benesovsky, F. 43, 44, 192, 857,
1091, 1286, 1674,1728, 1994
Ben-Amoz, M. 2379Benson, G.C. 1287Bennet, D.G. 266, 267, 307, 864, 975Benz, R. 1936, 2152, 2380Benzel, J.F. 1288Ber, A. 2604Berau, M.J. 2605Berg, A.L. 2153Berg, M. 105, 230Berger, A.L. 25Bergmann, C. 2606Bergmann, O.R. 1769, 2381Bergua, H. 806, 808Bernard, R. 443, 763, 1161, 1289, 1439Bernardos, J.E. 1346Bernhardt, W. 1440, 1911Bernstein, H. 2607Berte11a, L.A. 547Beroes, C.S. 2154Berry, J. 2086Berry, T.F. 2840,Besseva, c.w. 656Betser, A.A. 1770Betts, R.K. 2087Beucherie, P. 2382Bever, M.B. 2608Beynon, J. 1937, 2155, 2156, 2303Bhandari, R.C. 1952Bidwe11, R.M. 1290, 1441Biederman, D. 2157Bie1efe1d, L. 2942Bieler, G. 354Bie1stein, H.O. 636Bier1ein, T.K. 657Biermann, W.K. 1325, 1513Biernawsky, W. 548Biggs, W.D. 1771Bikerman, J.J. 2158Bi1ton, J.T. 1442Binder, J. 355, 658, 809Bing1e, J.D. 1103, 1281, 1435Binns, J. 1914, 2250Binstock, M.N. 1123Bishop, P.M.H. 2384Birks, F.I. 1575Bixby, D.C. 595B1achburn, L.D. 1772
Blackburn, A.R. 38, 48, 88Blaha, J. 2044Blainey, A. 936Blakeley, T.R. 268, 338, 356, 444,
533, 549, 550, 931Blakeley, T.S. 1259Bleckmann, R. 2531Blocher, E.W. 810Blocher, J.M. 1162, 1269Block, F.E. 1112Block, M. 2382BIomster, K. 2928Bloodworth, G.G. 2508B1um, G. 1038Blum, P.L. 1291Blumentha1, R. 269, 351, 402,
445, 501Bock, A.L. 1514Bogers, P. 2121Boginskii, L. 2385Bogorodirskii, N.P. 210Bogorodskaja, L.P. 585duBois, W.R. 446Boland, J. 1512Bollack, P. 1318Bolud, P. 1180Bolz, L.R. 811Bomar, E.S. 193, 1515Bomar, S.R. 1180, 1318, 1413Bondarenko, V.P. 2841Bondesan, C. 193, 1515Bonis, L.J. 2386Boomgard, van den, J. 2159Booser, E.R. 2609Booth, A.D. 2900Borchard, R.J. 812Borovkov, G.N. 2145Borts, S.A. 1113, 2160Bosseaw, D.L. 1591Bourdeau, R.G. 265, 652Bowen, M.P. 869Boyer, C.B. 1120, 1198, 2842Boyer, W.R. 2136Boyle, R.F. 1443Bradbury, B.T. 1051Bradhurst, D.M. 813, 1052, 1053Brad1ey, W.W. 1941Bradstreet, C.W. 2516, 2610Bradstreet, S.W. 1938Brady, J.C. 1939Bragdon, T.A. 358Bragdon, T.S. 659Brandes, A. 441Brandes, E.A. 1940Bratspies, J. 2381, 2388Braun, L. 1114Breaka11, K.L. 2924Breding, M.A. 112, 938, 999, 1113Breitwieser, R. 2011
- 159 -
Brenner, P. 1941Breslich, F.N. 1444Bridges, W.R. 111, 194, 961Briggs, A. 940Briggs, G. 1048, 1293Brierley, S.M. 10Brinkmann, R.J. 725Brite, D.W. 1163, 1199, 1294,
1298, 1115Briton, M.G. 1445Boosz, R.J. 811Brockway, M.C. 1311Brokes, K.J. 1054Bronstein, R.R. 938, 1113Broutman, L. 1149Broutman, L.J. 1942, 2022, 2389Brown, C.B. 1943Brown, C.C. 1361Brown, D.W. 1821Brown, G.A. 2116Brown, R.J. 660Brown, J. 2350Brown, J.B. 2390Brown, J.E. 1185Brown, R.D. 683, 1055, 1164Brown, R.L. 2511, 2611Brown, R.M. 1812Brown, S.D. 2111, 2195Brownlee, L.D. 211, 449Brownling, M.F. 1229Bruch, C.A. 455Brucklacher, D. 2843Bruhl, D.A. 1944, 2161Brush, E.F. 2162Brutto, E. 1292Bryjack, E. 90, 1116, 2010Buchanan, A.S. 813, 1052, 1053Buck, R.W. 1131, 2612Bucley, D.R. 941Budiansky, B. 2511, 2613Budnikov, P.P. 2163, 2614Buehler, E. 2844Buffet, J. 1106, 1211Bugajef, G.A. 1446:Bugl, J. 1441Bukat,A. 2615Bulanov, V.J. 1945Bullard, R.L. 1295Bumm, R. 2164, 2165, 2560, 2616Bump, D.D. 2845Bungard, K. 359Burbach, J. 2166Burges, C.A. 2161Burghardt, A.M. 510Bujock, J. 1116Burenik, A.A. 2019Burkett, J. 661Burkin, A.R. 1946Burney, J.D. 662
Bums, R.M. 1947Bumside, D.G. 272Burrough, J.E. 1901Burton, A.J. 2617Burton, R.A. 1055, 1164Burykina, A.L. 2168Busse, C.A. 2174Butcher, B.R. 1778, 1779Butler, T.W. 2391, 2392, 2945Buyers, A.G. 1296Buzek, B.C. 1948, 2169Buzzard, R.T. 2170B,yer1ey, J.J. 942, 1056B,ykov, V.N. 2171B,ystrova, K.A. 663, 1406
Cag1e, Ch.V. 2172Cahn, R.W. 1781Cain, F.M. 1069Ca1ow, C.A. 2846Campbell, I.E. 58, 59, 1949Campbell, J.B. 1367Campbell, J.C. 53Campbell, J.E. 755, 886Campbell, W.B. 2847Cannistravo, N.I. 664Cannistravo, W. 814Canasso, C. 1165Capochi, J.D.T. 2173, 2445Capcraova, I.N. 1579Caran, A.J. 665Carland, T.L. 273Car1en, F.L. 2175Ca1son, H.G. 2176Car1son, O.N. 2810Car1son, R.J. 1780Carmichae1, D.C. 1122, 1909Carnahan, R.D. 666Carnig1ia, S.C. 2961Caro11, D.F. 1166Carpenter, F.D. 1591Carpenter, H.W. 2177Carpenter, L.G. 1448Carr, D.S. 793Carril0, D. 2389Carrington, W.E. 257Carter, A. 84Carvalhinos, H. 2956Cartz, L. 1247Cashmore, J.A. 492Cassie, G.E. 1693Caspar, P.E. 1950Caste1franco, J. 667, 815Cata1ano, E. 2603, 2839Cech, B. 816, 943, 1297, 1782Chak1ader, A.C.D. 1155, 1951Chaika, B.I. 2201Champion, J.A. 2393
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1135, 1579, 1895, 1896,1897, 2111, 2112, 2538,2539, 2540,2191
Swamy, C.S. 2792Swartout, J.A. 1574Swarts, E.L. 418Swee, R.J. 250Sweeny, W.O. 82Swindeman, R.W. 1136, 1409Swinehart, M.R. 236, 512Swisher, J.R. 2541Syrkin, V.G. 2793Szteke, W. 1553, 1883, 1884
Tacvorian, M.S. 243, 244, 419Tacvorian, S. 524, 582, 630Tahamori, T. 1736Tailot, M. 1016Tajiri, M. 882, 1115Takagi, R. 631Takahashi, R. 2447Takahashi, I. 2801Takahashi, R. 781Takahashi, S. 2298Takahashi, T. 2113Taketani, H. 1898Takkunen, P.D. 2542Tamhankar, R. V• 2712Tamozawa, M. 1736Tamura, K. 631, 146Tamura, Y. 631TangermanQ, E.J. 525, 526Tangermann, I. 1137Tannenberger, H. 2259Tarp1ey, J.L. 2958Tartakovoskii, I.P. 1666Tate, D.J. 1138Tate, R.E. 33Tatem, W.A. 2336Tatzuzawa, K. 1115, 1696Tauber, R.N. 2448Taucher, T.R. 2331Tendarelli, L.A. 1131Tetlmann, A.S. 1138, 1899, 2114Tay1or, B.L. 1515Taylor, J. 395, 478Tay1or, M.W. 149, 909Taylor, R.E. 1521Tay1or, T.A. 691Teague, W.T. 869Teaney, P.E. 2116Teicher, H. 2794Teodorescu, I. 1095Ternisten, J.A. 632, 910Tevebaugh, A.D. 2848Thackray, R.W. 439Tharcisio, D. 2951Theisen, R. 1576, 2543Theodore, J.J. 442Thielemann, W. 2544Thielke, N.R. 333, 420Thiemann, J.W. 2115Thomas, A.G. 1402, 1493Thomas, D.A. 1804, 1979Thomas, M.K. 1900, 2116Thomma, W. 2111Thomson, R.A. 1329Thomson, W.M. 636VanThor, T.J.W. 2795Thorn, R.J. 1593Thornley,R.F.M. 1247Thornton, R.R. 1901, 2007, 2338
- 180 -
ThUmmler, F. 1392, 1403, 1480, 1811,2067, 2068, 2117, 2164,2165, 2184, 2285, 2435,2452, 2497, 2507, 2545,2546, 2547, 2548, 2559,2560, 2616, 2733, 2734,2744, 2797, 2843, 2903
Thun, R.E. 1050, 1295Thurber, W.C. 556, 1577, 1578Thurmond, C.D. 527Thurnauer, H. 83Tien Ke-Seng, 1248Tikkanen, M.H. 1249, 1404, 2928Timofeeva, N.I. 2766Tinkle, M. 2152,Tinkle, M.C. 1510, 1684Tinklepaugh, J.R. 126, 127, 245, 258,
363, 369, 421, 521,683, 918, 951, 953,1011, 1017, 1018
TipIer, H.R. 1340Tipton, C.R. 453, 675, 824, 946, 1061Tischler, R.F. 2011Tishchenkova, E.F. 735Titze, H. 1580Todd, A.G. 2118Tolbert, T.L. 2339Tolmatscheva, Z.I. 1175Tolutis, V.B. 2260Tomita, K. 2113Tottle, C.R. 1522Touceda, E.G. 149Touloukian, Y.S. 2119, 2796Towner, R.I. 2324Townsend, J.R. 782Track, W. 1024, 1412Trancanella, R.ß. 2656Trapp, G.J. 34Trempton, A.W. 177Trent, E.M. 19, 22, 84,2121, 2798Tretjakov, V.I. 1449, 1579Tretjatschenko, G.N. 1405, 1739Tretyakov, V.Ya. 633Trofimov, V.I. 1680, 2120Truchanova, Z.S. 1073Truchova, Z.S. 1407, 1582Truesdale, R.S. 674Trumbore, F.A. 527Trumbull, J .L. 1584Tsai, S.W. 1740Tsao, G.T. 1139Tschulepov, V.I. 1184Tsrkalenko, V.S. 2436Tumanov, V.I. 1073, 1140, 1141, 1283,
1406, 1407, 1504, 1581,1582, 1902, 2340, 2549,2550
Tumala, R.R. 2551, 2552, 2799, 2800Turil1on, P. 783
Turnbull, R.C. 128, 246, 247Turner, D.T. 2894Turner, P.S. 528Turov1in, B. 784Tuttle, M.A. 134Tylecote, R.F. 2341
Ueda, R. 11Uelts, H.F.G. 529Ugajin, M. 2801Uhlmann, J. 1019, 1220Ullmann, J.W. 1455Umanski, A.M. 1583Umeda, I. 1573
Vacek, J. 256Vacuum, J. 2231Valerius, E. 2553Valovic, J. 2342Valujev, N.I. 1252Vambersky, A. 179, 334Vangeel, J. 2237Vaugoyeau, H. 1291Veigal, N.P. 1229, 2343Ve1d Op Het, A. 2121Velikanova, T.J. 1175, 2636Veltri, R.D. 1276Venard, J.I. 1409Venturell0, G. 634Vereschtschagin, L.F. 1254, 1253DeVicentis, H.A. 335Vickery, R.C. 2122, 2133Vincent,G.L. 2123Vines, R.F. 336Vinogradov, 1.V. 1885Violante, E. 1142Vitrynayuk, V.K. 2344VIaeh, van L.H. 1741Vlasjuk, R.Z. 1903V1asov, A.I. 1002V1asov, A.S. 1410, 1889, 1890Voboril, M. 1995Vogan, J.W. 1584Vogal, R.C. 2848Vohler, o. 1713Volkov, V.S. 2518Vollrath, D. 2345Vondra, B.L. 1069, 1231Vormelker, P.R. 2554Voronin, N.I. 2047VsesyYatskaya, L.M. 2145
Wachtman, J.B. 2124
- 181 -
Wade, W.H. 1585Wade, W.R. 1255Waddoups, M.E. 1904Wäser, B. 248, 422Wagner, F.C. 911Wagner, H. 399Wagner, P. 1742Waits, R.K. 2555Wajima, T. 1748Walmo, Y. 704DeWald,L.M. 249Waldron, M.B. 2125Walker, B.E. 1256Walker, D.C. 989Walker, J. 338, 533Walker, V.A. 1323, 1483Wall, A.J. 1143Wallace, W.P. 784Walsh, J.B. 2929Walter, J.H. 1123Walter, P. 2218Walton, J.D. 869, 912, 1020Wambold, J. 1021Wang, F.F.Y. 2556, 2930Wang, R. 1743Wangh, R.C. 546, 635, 913, 1144\1Tarchal, R. 1281Warde, J.M. 423, 478, 530Warmer, R.J. 1961Warner, R.J. 1452Warren, J.H. 1145Warren, R. 2346, 2557Warring, R.H. 181\1Tassermann, G. 2479Watanabe, H. 2931\1Tatermann, T.E. 956, 1078Watkins, W.E. 725Watrons, J.D. 2575, 2813, 2814, 2815,
2816\1Tatson, C.A. 2592,2647Watson, W.H. 1656Watson-Adams, B.R. 2413Watts, A.P. 2802Watts, T.D. 1744Waye, B.E. 1586Webb, B.A. 971\1Teber, B.C. 636, 761, 786, 1022,
1023, 1257, 1411Weber, B.L. 337Weber, C.E. 531, 786, 914Weber, H. 407Weber, J.W. 2505Wedemeyer, H. 2452, 2507\1Teeton, J.\1T. 1880Weidenbaum, B. 1745WeigeI, K. 1024, 1412, 1746Weil, N.A. 1413Weill, J. 637Weimar, P. 2164, 2165, 2558, 2559,
2560, 2616, 2792
Weinberg, H.P. 1329Weinberge, \1T.R. 1258Weir, J.R. 1215Weir, S.R. 1516Weisinger, M.D. 2126Weiss, V.R. 1980Weissmann, 2048 .Weissmann, T.S. 1258\1Teldrick, G.J. 2127Wellard, J.P. 424\1Tellborn, W.W. 425, 915Weller, E.J. 2604Wemer, W.L. 1744Wernik, J.H. 2844West, J.V. 1025West, K.B.C. 1092West, S.F. 1915Westbrock, J.H. 129, 183\1Tester, H. 426Westerholm, R.J. 638, 916\1Tever, F. 787\1Teymouth, J.H. 1332\Vhalen, T.J. 964Wheildon, W.M. 1157, 1414, 1670,
2561,2959White, A.E.S. 338, 356, 444, 532,
533, 788, 937, 1026,1027, 1259
White, J. 1028, 1048, 1293, 1905, 2803White, J.E. 1906White, J.F. 427, 2128White, J.M. 1737Whitehead, W.D. 984Whittaker, D.R. 593Whittenmore, O.J. 85, 428Wiberg, o. 1249\1Tick, Ch. 1907Wickham, R.J. 1068Wieczorkowski, M. 1553, 1714\1Tilder, D.R. 534Wilhelm, H.A. 250\1Tilhelm, J.G. 1700, 1701Wilke, K.T. 1260Wilkinson, W.D. 1261Willbrand, J. 2450\1Tilliams, A.E. 789Wil1iams, D.A. 304Wi11iams, D.N. 1029Wil1iams, D.I.I. 2129Wil1iams, H.E. 1662Williams, H.P. 1587Williams, J, 439, 639, 749, 769, 792,
1030, 1059, 1456, 1590Williams, L.R. 1809Williams, L.S. 251, 339, 640, 790,
917, 1332, 1471, 1588,1747
\1Til1iams, N.T. 23Wil1iams, R.K. 2932Wil1iams, R.V. 2130
- 182 -
Williford, J. 2347Willis, A.H. 455Willmore, T.A. 307Wilson, C. 74, 252Wilson, J.R. 254Wilson, K.L. 2775Wilson, R.E. 253, 918, 2562Windsor, H.H. 2447Wing, A.P. 1589Winkenbach, 2131Winters, C.E. 1574Wirtz, K. 1964, 2184, 2348Wiseman, C.D. 1415Wisnyi, L.G. 1415Wiszorkowski, M. 1884Withers, J.C. 1032, 1146, 1262, 2349Witt, W. 1826Wittig, H. 2663Wolek, W. 791Wolf, E.G. 2132Wolf, W. 407, 919Wong, A.K. 2350Wood, A.J. 2127Wood, G.A. 2804Wood, G.N. 1834Wood, J.D. 2310, 2388, 2387Wood, W. 1908Wood, W.O. 868Woodwara, W.H. 340Wouldborn, J.M. 920Wright, A.J. 2133Wright, K. 1456Wright, T.R. 1909Wright, W.J. 792Wright, W.K. 1590Wulff, J. 91, 129, 331, 652Wulff, F. 265Wyss, R. 2027
Yaggee, F.L. 2563Yajiama, S. 1116Yamada, K. 1345Yamaguchi, S. 1369Yamamato, I. 2111Yamamato, K. 1748Yamamotov, T. 1897, 2112, 2539, 2540Yamauchi, S. 602, 743, 1859Yamauchi, T. 772Yamawaki, M. 2933Yamazaki, M. 1383Yamouchi, S. 704Yang, C. 2351Yang, L. 1591Yancey, R.W. 1416Yarnton, D. 1147Yasui, H. 2331Yazu, S. 2442, 2443, 2670, 2671Yeh, R.H.T. 2805, 2806, 2934
Yerkowiah, L.A. 341, 429Yerouchalmi, D. 1743Ylaesaari, S. 2928Ymanchi, S. 1216, 1518Yoblin, J.A. 1910Yokohama, M. 2807Yosim, S.J. 921Young, Ch.A. 2808Young, W.J. 1526Youngdahl, C. 1299Youssov, G. 640 aYue, A.S. 2852Yubara, K. 1984Yutani, N. 1263
Zabo10tny, L.V. 1974, 2203Zagar, L. 1911Zdanov, S.M. 1341Zakharov, A.M. 2564, 2809Zakharov, B.M. 2352Zambrow, J.L. 745, 903Zamfirescu, C. 2293Zarazewski, B. 35Zarichniak, I. 1970Zarichniak, P. 1910Zarnowiecki, K. 1592Zarubin, N.M. 36Zas1avskaya, L.V. 892Zelechowski, B.J. 2134Zelenskiy, V.F. 1341Zelezny, W.F. 2565Ze1ikmann, A.N. 393Zeman, K. 922Zemlyakova, Z.F. 2614Zhdanovich, G.M. 2566Zhemchuzhina, E.A. 935Zhilin, V.A. 2353Zhuralev, G.I. 2372Zikarev, V.J. 535Zimmer, F. 1411, 1912Zimmer, J.M. 255Zimmermann, W.F. 536, 694, 695Zirinsky, S. 193Zmii, V.I. 2274Zlobin, G.P. 2561Zaller, R. 2149, 2567Zope, B.D. 2490Zubova, E.V. 1254Zukor, M. 1989Zurav1ev, G.I. 1913
- 183 -
SUJ3JECT INDEX
The contents of every reference is indicated by means of descriptors. In
doing this, the questions posed were:~ material combination has been
investigated, h2:!! was it fabricated,~ properties have been evaluated,
~ is the said material applied, and !h!i information is available?
Thus, the deseriptors were selected aecording to the following subjeet fields:
materialsteehnologypropertiesapplicationsbibliographie information
(see Table 1, Guide to subjeet fields and deseriptors, and Table 2, Oeramie
metal eombinations and cermets which have been investigated).
'Physieoehemieal properties' are listed under 'materials' rather than under
'properties' because they deal with relations and reaetions between ceramies
and metals as such and not neeessarily with eermets.
Normally, every paper on eermets gives details on its technology (i.e. pre
paration), density, and strength. These descriptors seem trivial and are
only used when special or detailed investigations were performed.
Every reference is characterized by astring of deseriptors. The structure
of these strings is usually aecording to the proeedures of research and de
velopment, i.e. materials, teehnology, ••• (as above). This strueture has also
been maintained wherever possible when listing the particular referenee
aceording to the seeond, third, ••• deseriptor. It should be noted, however,
that the sequenee of deseriptors also earries some information; e.g.
mierostrueture meehanieal properties WO-Co = relation betweenmierostrueture and meehanieal properties; applieation to WC-Co
mierostrueture WC-Co meehanical properties = investigation ofthe microstructue of WC-Co; some meehanieal properties havealso heen investigated
Every entry (exeept those dealing with eomposites, refractories and other
similar materials) is about eermets; therefore the term 'cermet' has been
omitted.The subjeet index also lists several cross referenees in the form of
and see also--
- 184 -
Other explanations
coated particles
A1203-Co,-Cr,-Fe; Ti02 •••
TiC-CoTiC-Co
= this reference is a paper read at a conferencejwritten documentation is most likely not available
= alumina cermet(s)
= A1203-Co, A1203-Cr, A1203-Fe ~ Ti02-Co, Ti02-C~
Ti02-Fe cermets were investigated.
Cermets separated by a semi-colon are treated asdifferent descriptors; thus this combination islisted again as Ti02-Co,-Cr,-Fe; A1203••• )
= (ceramic) powder particles covered by a (metallic)layer
= the technology of making coated particles or coating any other object
= resulting product (such as, surface coatings)
= interactions and reactions between TiC and Co= phase diagram Ti-Co-C, with special reference to
the cermet TiC-Co
= specific model or a material configuration orcombination thar-is suitable for the simulationfor cermets (e.g., porous bodies, glass-bakelitecomposites)
+definition = patent on a cermet; adefinition of cermets isalso given in the patent
A1203
patent
coating
coatings
compatibilityconstitution
model
(2624)
reviewreview
ss
= review article on cermets in generalcemented carbides = review article on cemented carbides
= stainless steel
Grouping of descriptors has been done wherever possible; thus
bending strengthcreepfracture
~ listed ~strength !bending)strength creep)strength fracture)
The structure of descriptors is as follows:
strengthstrength (bending)strength (bending)/high temperature/strength /temperature/strength, measurementstrength, theory
( )/ /
for grouping
for specific additionalinformation
The arrangement of the deseriptor strings is alphabetical; e.g.,
TaC-Co..•..••..•thermal conductivity..........Th02-Be..........
.....00U1
•BIBLIOGRAPHIC INFORMATION
other materials
nuclear materials *nuclear materials (control rod)fuel elementes)
bearingcutting materialfriction materiallaminatesrocket materialshieldingstructural materialturbine materialvacuum seal
classificationdatadata evaluationdefinitionmodelstatistics
electronic components *capacitorcontactelectrodeheating elementresistor
resistor (thin-film)thermoelementthermionic emitter
bibliographybookpatentreviewsurvey(2624) D paper read at
a conference
... ---------------~
~ APPLICATIONS
distribution)electron micn)etching)grinding)high temper.)lineal anal.)particle size)polishing)porosity)stresses)
microstructuremicrostructuremicrostructuremicrostructuremicrostructuremicrostructuremicrostructuremicrostructuremicrostructuremicrostructure
microstructure *
transport preperties
electrical conductivitythermal conductivity
other properties
densitydielectric propertiesmagnetic propertiesoptical propertiesthermoelectric properties
- -- - --- --- - --- - --
mechanical properties *elastic constantshardnessstrength
strength bending)strength creep)strength compressive)strength fatigue)strength fracture)strength impact)strength tensile)strength thermal shock)strength torsion)
stresseswear
thermal properties
specific heatthermal expansion
• • •• measurement•••• theory
r-t+ PROPERTIES
processing
powder metallurgy *millingmixingpressing
pressing explosion)pressing extrusion)pressing hot)pressing hot isostatic)pressing magnetic)pressing vibratory)
sinteringsintering (liquid phase)sintering (pressure)
ether processes
coated particlescoating
coating !electrOdepOSiting)coating electroplating)coating flame spraying)coating precipitation)
coatingsevaporationfuel elements. fabr~cation
sputteringthermite reaction
smelting,
castingcasting (slip c.)
infiltration
chemical anaLysischemieal analysis (microprobe)chemical anal. (spectroscopy)
chemieal processingforming
forming (electroforming)irradiationjoiningmachiningrollingswagingtesting
physicochemical properties
bondingcompatibility
compatibility (corrosion)constitution
constitution (solubility)wetting
Al203-Ag }Al203-Al See Table 2........boride-earbidecemented boridescemented carbidescemented oxidesnitride-oxidephosphidesulphide-
other materials
MATERIALS
cermets
carbidesceramicscompositesmaterials
materials ~development)materials new)materials sintered)
rare earthsrefractories
refractories (superrefract.)transition metals
-- --- ------- - ---
* D also used as adesoriptor
I t-'i TECHNOLOGY
Table 1
Gtude to subject fieldsalld descriptors
- 187 -
abrasion ~ wear
adhesion ~ bondingwetting
AlN- strength patent 612AlN-Ag,-Cu; TiC-Ag,-Cu wetting 2762
-Al patent 551-Mo; BN-Mo compatibility 2811-Nb,-Ta,-Ti,-V; Si3N4••• ; Ti02... compatibility 2889-Pb; TiC-Pb wetting 2761
AIN- strength patent 612AlN-Al patent 551AlN-Pb; TiC-Pb wetting 2761
2849
405
55
105117, 201
598, 2846
282, 283, 284
2589
2080Zr02•••
920(2470)
A1203A1203Al203-
467, 729, 780, 1008, 1216, 1367, 1518, 1859, 2659BeO- wetting 1615
bonding 1864, (2624)casting (slip) patent 752coated particles strengthcoatings (2316), (2317)cutting material patent 2586electronic component 1789joining 668, 2953joining mechanical properties (2185)machining strength electrical + thermal conductivityresistor patent 752sintering physical properties 2200
Si02- compatibility 2047, 2714strength 1890, 2275, 2276
U02-W irradiation 2701vacuum seal 2632thermal expasion 328wetting bibliography 2002
A1203-Ag,-Au,-Co,-Cu,-Fe,-Ni,-Sn; B4C••• ; CaO••• ; Si02••• ; Zr02... wetting 1911-Ag compatibility 1828
eleetriaal aond~etivity 356, 444infiltration patent· 4g3, 532
-Ag,-Cu strength 1284-Al resistor (thin film)-Al,-Be,-Co,-Ni,-Zr; BeO••• ;-Al,-Co,-Fe; TiC-Co,-Fe,-Ni-Al,-Cu,-Fe,-Pb,-Pt joining-Al wetting 666, 2393-Au,-Pt; Th02-Au,-Pt strength (tensile) electrical conductivity 2654-Be,-Co,-Cr,-Fe,-Ni,-Zr; Cr203••• ; MgO••• ; SiN••• ; TiB2••• ; TiN••• ;
ZrB2••• ; zrC••• ; Zr02... 134-Be,-Fe,-Ni,-Si; Be2C••• ; BeO••• ; MgO••• ; Ti02 ••• ; Zr02•••-Be,-Mo,-Ni,-Si,-Zr; MgO••• ; Th02••• ; Zr02... compatibi1ity-Bi,-Na,-Sn; MgO••• ; TaC... compatibility 321-Co coated partiales bonding strength elastic constants
constitution 451patent 669
-Co,-Cr,-Ni bonding e1astic constants-Co,-Cr,-Fe,-Nb,-Ni,-W 1889-Co,-Cu,-Ni,-Sn; SiC••• ; Si02••• ; Zr02... wetting 1440-Co,-Fe,-Ni; BeO••• ; Cr203••• ; MgO••• ; Zr02... constitution-Co,-Fe,-Ni compatibi1ity 1186
A1203A1203A1203A1203-
- 188 -
A1203-Co,-Ni bonding 602-Co,-Ni; carbide-Co,-Ni wetting 1251-Cr 88, 123, 174, 243, 326, 329, 419, 562, 563, 582, 685, 686, 961, 981,
1392, 1460-Cr bonding 602, 2846
casting (slip) strength patent 876friction material wear 1055optical properties 1255turbine material 211, 322, 550microstructure 620microstructure irradiation 762patent 603, 705, 788, 821pressing (hot) strength hardness microstructure 896sintering microstructure strength 398, 503strength 626, 709thermite reaction 634, 1410thermite reaction patent 219, 310, 362, 426, 660, 734thermoelement rocket material 977
-Cr; B4C-Al; U02-ss irradiation 502-Cr,-Cu,-Fe thermite reaction pressing (hot) 1627-Cr,-Fe 2027-Cr,-Fe; BC••• ; zrC... 67
B4C-Fe; TiC-Fe,-Ni 158MgO-Co,-Ni 533
-Cr,-Fe,-Mo 615-Cr,-Fe; TiC... strength 106-Cr,-Mo 412-Cr,-Mo; TiC-Mo,-Ni bearings joining 905-Cr,-Mo,-W 543-er; SiC-Si; SiN-Si 1100
SiC-Si; U02-ss 965U02-Cr coated particles 2309
-Cr,-W patent 133, 195-Cr; Nb05-Cr; Ta205-Cr; TiO-Cr patent 554, 555-Cs 1009-Cu mechanical properties 2479-Cu,-Ni compatibility 2075-Cu,-Sn; Cr203... wetting electrical conductivity 565-Cu,-ss,-Ti compatibility joining mechanical properties 2408-Fe 710, 787, 836, 2514-Fe bonding wetting 743, 1721
coated particles bonding strength (bending) elastic const. 2849constitution thermite reaction thermal expasion 625, 773thermite reaction 2302turbine material 52
-Fe,-Ni; MgO••• ; Zr02... 483-Fe,-Ni pressing strength electrical + thermal conductivity 122-Fe,-Ni; Si02-Fe electrical + thermal conductivity 202-Li wetting 935-Mo electrode 2323
microstructure 1623, 2680, 2681patent 407, 1027pressing (hot) mechanical properties 2915, 2916thermal expansion thermal conductivity 2500
-Mo; BeO-Mo,-Nb electrical + thermal conductivity thermal expansionstrength 2151
-Mo,-Nb,-!a compatibility-Mo,-Nb,-Ta,-W 2013-Mo,-Ti,-Zr; MoSi-BiJ ZrO-Be,-Mo,-Ti,-Zr 72
- 189 -
A1203-Mo,-W 2008-Mo,-W wetting 2756-Na compatibility 2614-Nb 2011-Nb compatibility 1991
joining 2245pressing (hot) 2324
-Nh,-Ta,-W; BeO••• ; MgO ••• ; Th02••• ; Y203••• compatibility 1803-Ni 2093-Ni coating (flame spraying) e1ectrical conductivity 1872
compatibility 1155, (1975), (2662)infiltration (1588)infiltration patent 827
-Ni laminates strength 1888microstr~cture (etching) 2129patent 978pressing (extrusion) 2094
-Ni; Cr203-Ni electrical conductivity 2048Th02-Cr; WC-Co; Zr02-Cr coatings 1654
-Si microstructure 2186-Sn; MoSi3-Sn; SiC-Sn wetting 796-ss microstructure 1817, 2739-ss; MgO-ss thermoelement 2377
U02-ss patent 1590+review 700
-Ta capacitor resistor 2092resistor (thin film) electrical conductivity 2448
-Ti 1679-Ti compatibility 2864
pressing (extrusion) 783thermite reaction 496
-W 1512-W electrode 1612
electrical conductivity 1931wetting 1636
-W; BeO-W 1715-W; BeO-W coated particles bonding patent 2661-Zr thermite reaction 912
alumina ~ A1203-
Am02, Cm02, Np02, U02 coatings 2333
wetting 1911
190
2645
158817
BC- nuclear materials 471BC-Ag,-Al,-Sn,-Zn sintering (liquid phase)
-Al; SiC-Al patent 1021-Co,-Cr,-Fe,-Ni bonding 41-Co,-Mo,-Wo,-Ta,-W; TiC... turbine material-Cr,-Fe; A1203 ••• ; ZrC... 67
B4C-Ag,-Au,-Co,-Cu,-Fe,-Ni,-Sn,· CaO••• ·, S;02 • Zr02 • A1203... ... , ... , ...•Al; U02-ss; A1203-Cr irradiation 502-Co,-Fe,-Ni 148-Cu 430-Fe 75-Fe; TiC-Fe,-Ni; A1203-Cr,-Fe-ss; ZrB2-ss compatibility
- 190 -
BN-Mo; AIN-Mo compatibility 2811Be2C-Be,-Fe,-Ni,-Si; BeO••• ; MgO••• ; Ti02••• ; Zr02••• ; A1203... 105Be4C-A1; U02-ss; A1203-Cr irradiation 502BaO-Pt constitution 2626
bearing 928, 1200, 192\ 2609bearing A1203-Cr,-Mo; TiC-Mo,-Ni joining 905
patent 911pressing 1156WC-Co coatingswear 1656wear compatibility /Na/ 2857
bending strength ~ strength (bending)
Be2C-Be,-Fe,-Ni,-Si; BeO••• ; MgO••• ; Ti02••• ; Zr02 ••• ; A1203... 105Be4C-Al; U02-ss; A1203-Cr irradiation 502Bao-Pt constitution 2526BeO- 427BeO- fuel elements irradiation review 1337BeO- A1203- wetting 1615
; Be2C- 352BeO-Al,-Be,-Co,-Ni,-Zr; Zr02 ••• ; A1203... 282, 283, 284
-Be,-Fe,-Ni,-Si; MgO••• ; Ti02 ••• ; Zr02 ••• ; A1203 ••• ; Be2C... 105-Be,-Mo specific heat 1256-Co,-Fe,-Ni; Hf02 ••• ; MgO... 2256
; Cr203 ••• ; MgO ••• ; Zr02 ••• ; A1203... constitution 55-Cu strength (tensile) 2463-Mo,-Nb; A1203-Mo thermal expansion strength (fracture) electrical +
thermal conductivity 2151-Nb,-Ta,-W; MgO••• ; Th02 ••• ; Y203••• ; A1203... compatibility 1803-U; CaO-U; La203-U; SrO-U; U02-U compatibi1ity (sme1ting crucible) 2259-w (1555), (1719)-w patent 1560-w; A1203 coated particles bonding patent 2623
; Th02-W; U02-Al,-Cu,-Mo,-Nb,-Ni,-ss microstructure 1530Be203-Al coatings patent 867
bib1iography ~~ reviewsurvey
bibliography 165, 437, 568, 801, 802, 953, 1018, 1226, 1264, 1328, 1376,1809, 1832, 2000, 2243, 2329, 2366
bibliography cemented carbides 1328, 2329cemented carbides + electronic components 143composites, fabrication 2571contacts 2824fuel elements 2935, 2936, 2937, 2938, 2939, 2940fuel elements irradiation 1123mechanica1 properties 887oxide- patent 1328
wetting 2002thermionic emitter 2506U02- 949vacuum seals 2578, 2829WC-Co 2644
BiC13-Bi constitution 921
binding ~ bonding
- 191 -
bonding ~~ joiningwetting
bonding 251, 281, 297, 298, 299, 397, 482, 688, 708, 789, 797, 1167, 1304,1340, 1380, 1384, 1741, 1893, (1894), 2105, 2341, 2652, 2696, 2697,
bonding A1203- 1864 2881A1203-Co,-Cr,-Ni elastic constants 598, 2846
-Co,-Ni 440-Cr 602-Cu,-ss,-Ti jOlnlng mechanical properties 2408-Fe coated particles strength (bending) elastic c. 2849
wetting 743, 1721-W; BeO-W coated particles bonding 2661
BC-Co,-Cr,-Fe,-Ni 41book 2172CaB6- ; YmB-Si; MhB2-Si 191cemented carbides 375, 1309, 1820, 2111coating (flame spraying) 2097fuel element (754), (757), 1198, 2254infiltration patent 2794mechanical properties WC-Co,-Cu 1004oxide- 2407patent 1765, 2772, 2874review 2217SiC- 258, 421SiG-Fe 184Si02- compatibility (1870)Si02-Si 2925
-W 1736strength (1467), 2325stresses 2485survey 707, 854Th02- ; U02- 1287TiG-Al 1769
-Al,-Au,-Be,-Co,-Gr,-Fe,-Mg,-Mn,-Ni,-Pb,-Si,-Ti,-V 60, 98-Go,-Cr,-Ni 119-Ni 1072-Ni microstructure 1183
transition metals 1881UC-Fe 1532U02-Cu 1522
-Fe fuel element 1469U308-Al,-Mg 74WC-Go 116, 146, 464, 868, 1723, 2920WC-Go chemical properties 1407
-Go,-Cu mechanical properties 1004wetting compatibility (2334)
book 1018book bonding 2172
cemented carbides 1674, 2941ceramics 2311coatings 1947, 2168composites 1824, 1833, 1947contacts 1559fuel elements 2232, 2233, 2472, 2473, 2513, 2518microstructure 2090microstructure ceramics 2210mixing 2585mixing density 2216
- 192 -
book powder metallurgy 2611refractories 2726sintering (liquid phase) 2635
book (dictionary) nuclear materials 2433
boride- ; carbide-; oxide- coating (electroplating) 1176; oxide- wetting 830; TiC- survey 287
boride-Cu; carbide-Cu thermoelectric force 766
brazing ~ joining
burnup ~ Pu••• fuel elements irradiationU... fuel elements irradiation
CaB6- ; MnB-Si; MnB2-Si bonding 191
CaF2-Pu; NbC-Pu; Y203-Pu; ZrC-Pu; Zr02-Pu compatibility (crucible) 2630
CaO-Ag,-Au,-Co,-Cu,-Fe,-Ni,-Sn; Si02••• ; Zr02 ••• ; A1203 ••• ; B4C... wetting 1911-U; La203-U; srO-u; U02-U; BeO-U compatibility (crucible) 2259
capacitor A1203A1203-TaHf02-Hf
927resistor1826
2092
carbide- chemical analysis 1523cutting material 494nuclear materials 1551, 1575wetting 1708, 2303
carbide-Co,-Ni; A1203-Co,-Ni wetting 1251-Cu; boride-Cu thermoelectric force 766-Cu wetting 2865-ss 1054-ss wear 1044
carbide- oxide- 333, 986ox1de- boride- coating (electroplating) 1176oxide- compatibility 1611, 2773oxide- wetting 388, 488, 830, 1137
carbides infiltration 112, 1076microstructure 476pressing (extrusion) 425survey 961
casting 102casting cemented carbides patent 132
coatings 2672coatings patent 1533Cr203-Mo,-Re,-W; MgO-W microstructuremixing 1029TiC- 240WC-Co sintering physical properties
casting junidirectional so1idificationj NbC-Co
TiB-Ti;U02-W .U02-W
2735
microstructure 2040
microstructuremechanical prop. 2751
Ti5Si3-Ti 2852(2394), 2620
microstructure (electronmicroscope) 2657
- 193 -
casting (Sl~p c.)casting (sl~p c.)
468, 644, 701, 761, 767, 785, 1022, 1102, 1214, 1257, 1411A1203- patent 178A1203-Cr strength patent 876review 897, 922Th02-Bi 969U02-Bi patent 960WC-Co 1716, 1951ZrC-W 2410
cathode ~ electrodee2ectronic componentthermionic emitter
CbC-Co,-Ni; TaC-Co,-Ni; WC-Co,-Ni sintering 63
CdO-Ag contact 342contact patent 70, 103, 224, 304, 336, 512, 742, 870
CdO-Ag,-Cu contact patent 698-Ag; CuO-Ag contact patent 1478-Ag; HgO-Ag; Sn02-Ag; ZnO-Ag contact patent 768-Ag; WC-Ag contact 2099
CdP2-Sn constitution 2844CdS-In; CdSe-In; ZnO-In electrical conductivity strength, measurement 415CeC2-Ir,-Pt; ErC2••• ; YC2... compatibility constitution 2885
cemented borides ~~ borides
cemented borides 508
cemented carbides ~~ carbidecarbidesPiC-CoWC-Co
182
microstructuremicrostructuremicrostructuremicrostructure
21, 22, 24, 35, 50, 431, 459, 557, 915, 1225, 1250, 1754,2118, 2484 2785, 2909
bibliography 1328, 2329bibliography +electronic components bibliography 143bonding 375, 1309, 1820, 2111book 167~ 2941casting patent 132cemented oxides 518chemical analysis 1096, 1225, 2089chemical processing 1538chemical properties 1320compatibility (corrosion) 1616, 2141cutting material 730, 2602cutting material wear 2604, 2798data 1795elastic constants 2039electronic components patenthardness strength 4, 10machiriing 274, 1066, 1755mechanical properties 567 2922microstructure 40, 90, 199, 1297, 1334, 2071, 2121, 2481,microstructure strength 327, 1095, 1192
statistics 1333(electron microscope) 443, 2044, 2289, 2481(stresses) 1786, (2666)/cracks/ 2807/grain size/ 2702
cemented carbides
- 194 -
cemented carbides mixing 2954patent 884pressing 1025, 1815pressing (extrusion) 958, 2692pressing /autoclave/ 2417refractories survey 53review 66sintering 641, 1706sintering /furnaces/ 2693strength 608, 2807strength testing 2198, 2418, 2462strength (bending) 826stresses 1289survey 34, 86, 249, 883, 1286, 1354technology powder meta11urgy 2640, 2785technology /quality control/ 2804testing 176thermal conductivity 2026, 2359, 2952wear 1984, 2141
cemented carbides /SSSR/ 1437
cemented oxides ~~ oxide-oxides
cemented oxides cemented carbides 518CeB6=Hf,-Re,-Ta,-W; LaB6... compatibility 2841Ce02-Re,-W; Th02 ••• ; Zr02 ••• ; TaB••• ; HfC••• ; NbC ••• ; TaC•••
wetting 2267
ceramies 1233, 2189book 2311coatings 1212, 1243, 1394, 1398, 2088
testing 1508data 2580mechanical properties survey 552, 2124, 2404microstructure book 2210powder metallurgy 1246strength 2628survey 2278
ceramography ~ microstructure
cermetography ~ microstructure
chemical analysis ~~ chemical processingchemical propertiescompatibilityconstitution
compatibility
chemical analysischemical analysis
chemical analysis
1169carbide- 1523cemented carbides 1095PuC-Ru; UC-Ru 2127PuC-ss; Pu02-ss; U02-ss 1693TiC-Cr 892TiC-Ni 1142UC14-Al; U02-Al 2119U02-Al 1047U02-ss 1485, 2028
/stoichiometry/ U02-W 2523
- 195 -
chemical analysis (microprobe) fuel elements 1576joining 1710U02-Mo,-Zr 2621
chemical analysis (spectroscopy) density 2409
chemical processing ~~ chemical analysischemical propertiescompatibilityconstitution
chemical processing cemented carbides 1538U02-Mo 1932U02-ss 1485, 2028
chemical properties ~~ chemical analysischemical processingcompatibilityconstitution
chemical propertieschemical properties
632, (1007)cemented carbides 1320TiC-Ni 1223U02-Fe 1678WC-Co bonding 1407
cladding ~ fuel elementsPu••• fuel elements, fabricationU... fuel elements, fabrication
classification ~~ reviewsurvey
classificationclassification
875, 2290composites 262lelectronic componentsmaterials (sintered)
9242344
Cm02, Np02, U02, Am02 coatings 2333Cm02-Mo; Pu02-Mo compatibi1ity 2515
-Mo,-Re,-Wj Pu02... compatibi1ity 2813, 2814, 2815, 2816Cm203- compatibility 2631Cm203-Mo,-Nb,-Ta,-V,-W,-Zr; Tm203-W compatibility 2101
-Mo; Th02=Mo pressing (hot) sintering 2888
cohesion ~ bonding
coated particles
coated particles
91, 343, 885, 1069, 1093, 1158, 1162, 1241, 1260, 1277,1515, 1526, 1587, 1111, 1713, (2014)
Al203- 982A1203- strength 2589A1203-Cr; U02~Cr 2309
-Fe bonding strength (bending) e1astic cQnst. 2849-W; BeO-W bonding patent 2661
fue1 elements 1190, 1244, 1393, 1450, (1734), 2919fuel elements, fabrication patent 2876Hf02-W; MoSi-Mo; yt203-Cr 2513MgO-Mo; Zr02-Mo,-W strength 1112patent 272, 2589, 2612, 2153, 2818, 2819, 2835, 2836pressing patent 2148Pu02-Mo pressing (hot) 2830Th02-Cr 2343
- 196 -
c~ted particles A1203-Mo pressing microstructure 2819-W; BeO-W bonding patent 2661
fuel elements 1190, 1244, 1393, 1450, (1734), 2919MgO-Mo; Zr02-Mo,-W strength 1712patent 272, 2589, 2594, 2612, 2153, 2818, 2919, 2835,Th02-Cr 2343 2836TiC-Co 113, 114UC-Au,-Ni; U02... 2431
-Nb fuel element, fabrication patent 2543-W; U02-W microctructure 1935
UN-Mo,-W pressing 2542; U02-W; US-W pressing 1269
U02- (886), 1069, 1117, 1231U02-Al 239, 252
-Al,-Cr,-Nb irradiation 1346-Cr; A1203-Cr 2309-Cr pressing (hot isostatic) physical properties 2559-Cr,-Mo electrical conductivity 2192
pressing (hot isostatic) electrical + thermalconductivity strength irradiation 2558
-Cr,-Nb fuel elements, fabrication 1229-No 1185-No pressing (hot isostatic) 2560
sintering 1326thermionic emitter 2236
-No,-ss thermal conductivity irradiation 1062-Mo,-W 2322
pressing (hot isostatic) 1919-No; Zr02-No 2098, 2310-Nb 1301-Nb,-Ta fuel elements, fabrication 1918-v 2774-w 755
strength (creep, fracture) 2170thermal conductivity 2220
-W; UC-W microstructure 1935ZrB2-Cr infiltration 1159Zr02-No,-W; MgO-No strength 1712
(1032), 1262, 1940, (2244), 2413, 2510patent 2811rocket materials 1329testing 1087TiC- 2832WC-Cu 1690ZrB2-Cu 2898
1146, 1276boride-, carbide-, oxide- 1176TiC-Ni 674
1157, 1493, 1542, 1670, (1819), 1858, 2249,(2253), 2382, 2561, 2959
coating (flame spraying)
coating (electrop1ating)coating (electrop1ating)
coating ~~ coated partic1escoatings
coating joining 2162patent 2648
coating INol 2088coating ITil 2113
coating (e1ectrodepositing)coating (e1ectrodepositing)
- 197 -
coating (flame spraying) A1203-Ni electrical conductivity 18721;londing 2097Cr2.B-Ni 850density 2524Hf02-Mo,-W; Th02••• ; Zr02... patent 2228oxides 2193
coating (precipitation) 1946
coatings ~~ coated particlescoatingrocket materials
coatings 266, 309, 314, 315, 344, 345, 396, 542, 638, 664, 670, 703, 706,758, 793, 800, 805, 810, 814, 863, 878, (900), (906), 916, 1037,1068, 1077, 1105, 1131, 1153, 1161, 1274, 1349, (1442), J607,(1909), 1913, 1927, 2142, 2146, 2274, 2298, 2299, 2590, 2591, 2674,
coatings A1203 (2316), (2317) 2817, 2820,A1203-Ni; Th02-Cr; WC-Co; Zr02-Cr 1654 2845, 2942Am02, Cm02, Np02, U02 2333Be203-A1 patent 867book 1947, 2519casting patent 1533ceramies 1212, 1243, 1336, 1394, 1398, 208& 2518
testing 1508Cr2:B-Ni 396MgO-Ni 166, 538, 725MoC-Mo; NbC-Nb; TaC-Ta; TiC-Ti; WC-W; ZrC-Zr 2707NbC-Mo,-Nb,-Ta,-W; ZrC... book 2168oxides 1088, 2306patent 867, 26788i02- 21238i02-Mo,-Nb,-Ta,-W compatibility 2631structural materials (2527)thermoelement 1885WC; WC-Co 2352WC-Co bearing wear 16~6
wear 1327, 2145, (2336)ZrC patent 2582ZrN patent 2501Zr02- (2277)
compacting ~ pressing
compatibi1ity ~~
compatibility
compatibility
chemical analysischemical processingchemical propertiesconstitution
214, 215, 216, 229, 230, 247, )18, )348, 418, 453, 1037, 1275,1282, 1304, 1855, 2330, 2426, (2610
AIN-Mo; BN-Mo 2811AIN-Nb,-Ta,-Ti,-V; 8i3N4 ••• ; Ti02... 2889A1203- 729A1203- ; 8i02- 2047, 2714A1203-Ag 1828
-Be,-Mo,-Ni,-8i,-Zr; MgO••• ; Th02••• ; Ti02 ••• ; Zr02 117,201-Bi,-Na,-8n; MgO••• ; TaC... 321-Co,-Fe,-Ni 1186-Cu,-Ni 2075
- 198 -
ccmpa.t fb.i.Li.ty A1203-Mo,-Nb,-Ta 2372-Na 2614-Nb,-Ta,-W; BeO••• ; MgO••• ; Th02••• ; Y203... 1803-Ni 1155, (1975), (2662)-Ti 2864
B4C-ss; ZrB-ss 817BeO-U; CaO-U; La203-U; SrO-U; U02-U 2259carbide- ; oxide- 1611, 2773CeB6-Hf,-Re,-Ta,-W; LaB6... 2841CeC2-Ir,-Ft; ErC2 ••• ; YC2... constitution 2885Cm02-Mo; Pu02-Mo 2575Cm02-Mo,-Re,-W; Pu02... 2813, 2814, 2815, 2816Cm203- 2631Cm203-Mo,-Nb,-Ta,-V,-W,-Zr; Tm203-W 2701Dy203-W 2255electrical conductivity 1694electrodes 1873EuB6-Hf,-Ta,-W 2601 .Eu203-Eu; Yb203-Yb 2839Gd203-Ta +Gd203-Mo,-W pressing (hot) 2914MgO-Mg 2943microstructure (2733)NiO-Be; W03-Ni 869oxide- 377, 733, 1502, 2235, (2531), 2927oxide-Pt 2627
-U 566Pm203-Re,-ss,-Ta; Sm203-Re,-Ta,-Ti,-W 2653Puc-ss; UC-ss 2060FuN-Cr 2706Pu02- 2772Pu02- constitution 2532Pu02-Cr,-Ni; U02... 2603
-Mo,-Re,-W; Cm02... 2813, 2814, 2815, 2816-pt,-Rh 2773, 2830-Rh 2197-Si,-ss; U02... 1381-ss; U02-ss thermal expansion 2902-Ta microstructure hardness 2860
SiC-Cr 2951-Mo 1812
Si02- bonding (1870)Si02-Fe 29105mB6-Ni 2766TaB-Re,-W; HfC••• ; NbC••• ; TaC••• ; ZrC••• ; Ce02... wetting 2267TaSi2-Ta,-Ti,-Zr 2923thermionic emitter 1390Th02-Be; U02-Bi 1081TiC-Co,-Fe,-Ni 128, 246
; WC-Co,-Mo 485TiN-Co,-Fe,-Mo,-Ni,-W 1671Tm203-ss,-W 2576
-W; Cm203-Mo,-Nb,-Ta,-V,-W,-Zr 2647UB4-Cr,-Fe,-Nb,-Ni; UC2 ••• ; U308... 812UC- fuel elements 1468 1811UC-Al,-Be,-Cr,-Fe,-Mo,-Ni,-ss,-Ta,-Ti,-V,-W,-W,-Zr; UN••• ; U02•••
-Al,-Cr,-Fe,-Mo,-Nb,-Ni,-ss,-Th,-Ti,-V,-Zr 1205-Al,-Cr,-Fe,-Mo,-Nb,-Ni,-Ti,-V,-Zr; UN••• ; U02... 2434
UC2-Al; U02-A1; U308-Al fuel elements irradiation 1649UC-Mo,-Nb,-Re,-W thermionic emitter 1202
-Mo,-ss 2843
- 199 -
1447
1686
2885
1426, 1672
constitution
1622485
2435
2435
1603
compatibility UC-Mo,-W 2196-Na 2931-ss 1669, 1821, 2060-ss,-V (2660)-Ta 2737-W 2801
UN-Al,-Cr,-Fe,-Mo,-1~,-Ni,-ss,-Th,-Ti,-V,-W,-Zr
-Al,-Mo pressing fuel element 903-Mo,-W 2507, 2913-Ni,-ss,-V; U02•••-ss 2869-Zr 1874
U02- 1056, 1245U02-Al 973, 1387, 1546
-Al ,-Be 950-Be 1561-Bi 1092-Cr,-Mo 2427-Cr,-Ni; Pu02•••-Cs,-Li,-U; UC ••• ; UN... microstructure-Gd 2568-Mo 111, 954, 1673, 1742-Mo,-1~,-Ta 2180, 2237, 2397-Mo,-Nb,-Re,-Ta,-W irradiation 942, 1852-Mo,-Re,-ss,-W thermal expansion 1458-Mo,-Re,-W 1651-Mo,-Re,-W thermionic emitter-Mo,-Rh,-~,-W 2345-Mo,-W fue1 elements irradiation 2398, 2399, 2400
thermionic emitter 1672, 2171; US-W pressing irradiation 1353
-Na 1594-:No 1513-Nb,-Ta 1917-Nb,-V 1356-Ni,-ss,-V; UN•••-Pu 1395-ss 1701, (2505), 2848-SS; Pu02-ss thermal expansion 2902-w 1302, 1424, 1473, 1497, 1514, 1745-w thermionic emitter 1491-Zr 391, 601, 618
U308-Al 1144, 1534, 2357, 2656US-Mo,-Na,-Ta,-V 1148
-Zr 2933YC2-Ir,-Pt; CeC2••• ; ErC2•••w- 1906WC-Co strength (bending)
-Co,-Mo; TiC-Co,-Fe,-Niwetting (2046)ZrC-Nb 159Zr02- 2005Zr02-Cr 1550
-Ti 1386, 138811,' \
compatibi1ity /crucib1e/ BeO-U; CaO-U; La203-U; Si02-U; U02-U 2259Caf2-Pu; NbC-Pu; Y203-PU; ZrC-Pu; Zr02-Pu 2630silicides 622TiC-Mo,-Ni 2440WC-Co 2374
- 200 -
compatibility /Na/ bearing wear 2857compatibility /powder compacts/ review 2454compatibility / simulated fission products/ U02-Mo,-ss 2452
compatibility (corrosion) 486, 703compatibility (corrosion) cemented carbides 1616
cemented carbides wear 2141irradiation 991oxide-Na 1052TiC- patent 509TiC-; WC- 945TiC-Ni friction material 941U02-Mo hardness 932WC-Co 781, 852, 1134
composites 1222, (1330), 1459, (1519), (1633), 1685, 1802, (1938), 2192,(2205), 2488, 2502, 2516, (2629), (2649), 2673, (2755)
composites book 1824, 1833, 1942classification 2621dielectric properties 1~34
electrical + thermal conductivity models 1793electrical conductivity, theory 222~ 2679electrical conductivity /superconductivity/ (2108)mechanical properties 1888microstructure 182~ (2663), 2863physical properties /acoustic emission/ (2238)review 1270, 1367, 1941strength (creep) model 2037strength (fracture) 1962structural material 2608survey 1644, 1751, 1771, 1781, 2022, 2130, 2182survey /forecasting/ 2364, 2456, 2579thermal conductivity (2626), 2799, 2800thermal expansion 2613
composites, fabrication bibliography 2577composites, theory 1973, 2487, 2605
composites (metal-matrix) 2268, 23~0$ (2405), (2406)composites (meta~-matrix) technology 1965, 2136, 2338
composites /low temperature/ 1966composites /unidirectional/ thermal conductivity 2104
composition /computation/ 1945
compressive strength ~ strength (compressive)
consolidation ~ pressing
constitution ~~ chemical propertiescompatibility
constitution (54), 56, 64, 214, 215, 216, 229, 230, 910, 964, 1059, 1165,1675, 1839, 1847, 1855, 2574, 2607, 2803
constitution A1203- 729A1203-Co 451
-Co,-Fe,-Ni; BeO••• ; Cr203••• ; MgO ••• ; Zr02... 55-Fe thermite reaction thermal expansion 625, 773-Nb (1991)
BaO-pt 2526BiC13-Bi 921
- 201 -
constHution CdP2-Sn 2844CeC2-Ir,-Pt; ErC2••• ; YC2... compatibility 2885Cu20-Cu 2211Cu20-Cu; PbO-Pb 286composites 1878data 956, 2907Er203-Zr; Y203-Zr; Yb203-Zr 2297Eu203-Eu; Sm203-Sm; Yb203-Yb 2603Fe-Mo-C; F-W-C 2239KBr-K; KC1-K; KJ-K 712LiF.;.Li 1173MgC12-Mg; PbC12-Pb 504microstructure 2802NaC14-Na; NaF-Na; NaJ-Na 938oxide- 438, 493, 733, 1511, 2478physical properties 1877PuC-W; UC-W 2858Pu02- compatibi1ity 2532Pu02-Mo 2825RbCI-Rb; RbF-Rb; RbJ-Rb 939refractories 386review 2574, 2907si1icides 622sintering 2689SiO-Cr 2159Si02-W (2562)Sm203-Sm; Yb203-Yb; Eu203-Eu 2603TaC-Mo,-Nb,-Ti 2703
-Re 2498, 2908Th02-Al 1238TiC-Mo 2809
-Mo,-Nb,-Ta 2678-Mo,-Ti 2636-Ni 331, 829, 2063-Co 217-Cr,-Ni 469-w 312
UAs-U 2152UC- 2234UC- ; UC2- ; UN- transition metals 1293UC-Cr,-Fe,-Ni 1048
-Fe; UN-Fe 2866;';'V; UN-V (2419)-W 2912
UC2-Cr,-Fe; UN-Fe 1040UN-Cr 2926
-Fe,-U 1308-Mo,-ss,-W; UC-Pd,-Rh,-Ru 2843-transition metals 2453
UP-U 1265U02-Cu 838, 2496
-Na,-ss,-U; US-U 1599-U 1291,'1593, 1689, 1702, 1796, 2355-U sintering 1629-W 1507-Zr 409, 771
US-U; U02-Na,-ss,-U 1599VO-V 2810WB-Co,-Fe 2475
- 202 -
constitution WC-Co 9, 234, 1579, 1822, 1863, 1985-Co microstructure 288-Co strength 449-Co,-Fe 2758-Co,-Ni 1129-Ti 312
YC2-Ir,-Pt; CeC2••• ; ErC2... compatibility 2885Yb203-Yb; Eu203-Eu; Sm203-Sm 2603ZrB2-Re 2599
constitution (solubility) WC-Co 9, 271, 401, 449, 1449, 1573WC-Co mechanical properties 1979
-Co,-Fe mechanical properties 2112
contact ~~ electronic components
87, 9776, 104, 236
contactcontact
367, 1446, 1520bibliography 2824CdO-Ag 342CdO-Ag; CuO-Ag patent 1478CdO-Ag patent 70, 103, 224,CdO-Ag,-Cu patent 698CdO-Ag; HgO-Ag; Sn02-Ag; ZnO-AgCdO-Ag; WC-Ag 2099In203-Ag patent 120patent 152, 413Sn20-Ag patentZnO-Ag patentZr02-Sr 1276
304, 336, 512, 742, 870
patent 768
contact angle~ wetting
corrosion ~ compatibility (corrosion)
CrB- 972, 1219CrB- mil1ing 1220Cr-B,-Cr,-Fe,-Ni; TiB2-Co,Fe,-Ni 585Cr2B-Co 49
-Cr patent 874-Cr,-Mo 355-Cr,-Mo,-Si patent 572-Cr,-Mo,-Zr; MoB2 ••• ; ZrB... 346-Ni 31, 631, 1019-Ni bonding 1072
coating 396coating (flame spraying) 850elastic constants 980
CrB2-Co,-Cr,-Fe,-Ni; VB ••• ; WB••• ; ZrB... infiltration patent 448
Cr2C3- 118, 473, 1085Cr2C3-Al; SiC-Si 423
-Co; M02C-Co; TaC-Co;-Co,-Ni; TiC-Co,-Ni-Ni 292
WC-Co447
microstructure 36
creep ~ strength (creep)
Cr203- hardness density 2107Cr203-Al patent 1108
-Be,-Co,-Cr,-Fe,-Ni,-Zr; MgO••• ; SiN••• ; TiB2••• ; TiN••• ;ZrB2••• ; ZrC••• ;Zr02 ••• ; A1203... 134
- 203 -
Cr203-Co,-Fe,-Mo,-Ni; MnO••• ; SiO••• ; ZnO... patent 1174-Co,-Fe,-Ni; Mgü••• ; Zr02••• ; A1203 ••• ; BeO... constitution 55-Cr 1731-Cr sintering 2327
strength hardness 1569-Cu,-Sn; A1203... wetting electrical conductivity 565-Mo,-Re,-W; MgO-W casting microstructure 2735-Ni; Al203-Ni electrical conductivity 2048-Ni sinteriIlg' 2006-sS; WC-ss 213
crushing ~ milling
CuO-Ag 2727CuO-Ag; CdO -Ag contact patent 1478
-Al 2304-Cu constitution 2211
electrical conductivity mechanical properties 2541-Cu; PbO -Pb constitution 286
cutting ~ machining
cutting material ~~ hardnessmachiningmechanical properties
cutting material 406, 432, 433, 434, 456, 525, 526, ,44, (580), 621, 637,730, 744, 759, 794, 894, 919, 1345, 1907, 2353
cutting material A1203- patent 2586carbides 494cemented carbide 730, 2602cemented carbide hardness wear 2604, 2798HfC-Cb,-Cr,-Mo,-V; TiC••• ; VC ••• ; zrC... wetting 1823joining 851oxide- 548, 571, 623TiC-Ni elastic constants hardness 1856WC-Co 1097, 1566, 2300, 2301, 2642WC-Co patent 2723
wear 2539, 2540, 2798, 2946wear 2499
data ~~ bibliographybookreviewsurvey
data 800, 926, 931, 1042, 1078, 1270, 1271, 1429,-1474, 1760, 1922, 2119,2143, 2339, 2365, 2826
data cemented carbides 1795ceramics 2580constitution 956, 2907constitution oxide- 2478density elastic constants 974thermal conductivity 2796ThN- ; Th02- 2756
data /buyer's guide/ 2947data / melting points/ 2363
data evaluation ~~ statistics
data evaluation 629, 760
- 204 -
data evaluation model 2384strength, measurement testing 723thermal expansion 2563TiC-Co; WC-Co 2342
data evaluation /graphs/ 2455
data bank 2051
definition ~~ classificationcompoli1tesreviewsurvey
definition 279, 676, 690, 1270, 2022, 2290, 2466, 2545, 2583definition +constitution 2907
+microstructure (electron microscope) 875+oxide- review 2163+patent 1492+refractories 25
deformation ~ elastic constantsmechanical propertiesphysical propertiespressingstrength
density ~~ microstructurepressingsintering
density chemical analysis (spectroscopy) 2409coati~~ (flame spraying) 2524elastic constants data 974elastic constants, theory 2929hardness Cr203- 2107m1xing 1806, 1849mixing book 2216model 2537permeability 2763pressing, theory 2342stre~h (tensile) 2444thermal conductivity 1~52t 2~57
dielectric properties ~~ capacitor
dielectric properties composites 1934model 2853
diffusion ~ compatibility
diffusion /Xe133/ MgO-Ni (497), 984
distribution ~ microstructure (distribution)
drilling material ~ cutting material
ductility ~ elastic constantshardnessmechanical propertiesstrength
Dy203-W compatibility 2255
- 205 -
elastic constants ~~ mechanical propertiesstrength
2849
1480
strength (bending)
(1783)
975
598bonding
2125
2285
834, 1630, 2536UN-ss; U02-Mo
2471testing
bondingparticles
2039
1856strength
9741215
2021
1749, 1903, 2533A1203-Co,-Cr,-Ni
-Fe coatedcemented carbidesCr2B-Ni 980density datafuel elementshardness WO-CoMgO- 1997model 1957, 2806, 2854Pu02-ss; U02-ss strengthSi02-Fe 2246strength modelstrength testingstrength, theorythermal expansionTiC-Ni 1133TiC-Ni hardnessU02-Cu; U308-AlU02-Mo 1954U02-Mo e1ectrical + thermal conductivityWC-Co 1283, 2379, 2630, 2934WC-Co strength 157, 988Zr02-Ti strength thermal expansion thermal cond. 1763
measurement 862, 1955theory 1892, 1971, 2183, 2296, 2379, (2556), 2613, 2929,
2930, 2934
elastic constantselastic constants
elastic constants,elastic constants,
electrical conductivity ~~ contactelectronic componentsresistorthermionic emitter
electrical conductivityelectrical conductivity
69, 699, 1807, (2284), 2743A1203-Ag 356, 444
-Au,-Pt; Th02-Au,-Pt strength (tensile) 2654-Cu,-Sn; Cr203... wetting 565-Fe ,-Ni pressing strength thermal cond. 122-Fe; Si02-Fe thermal conductivity 202-Mo; BeO-Mo,-Nb thermal expansion strength
thermal conductivity 2151-Ni coating (flame spraying) 1872-Ni; Cr203-Ni 2048-Ta resistor (thin-film) 2448-W 1931
CdO-Ag 2CdS-In; CdSe-In; ZnO-In strength, measurement 415Cu20-Cu mechanical properties 2541compatibility 1694composites thermal conductivity models 1793infiltration model 2634microstructure (porosity) thermal conductivity 2598MoSi2-Ni strength patent 529oxides 1SiO-Cr resistor (thin-film) 2083survey 110, 325UC-Mo; UN-Mo; U02-Mo thermal conductivity strength
irradiation 1626
- 206 -
1480
2038
2894
2282
conductivity2948
(thin-film)(2108)
UN-Bi thermal conductivity 1145U02-Cr,-Mo coated partic1es 2792
-Cr,-Mo,-Nb pressing thermal conductivity 824-Cr,-Mo,-Nb,-ss pressing (hot) thermal expansion
thermal conductivity 1060, 1170-Cu microstructure (distribution) mOdel 2458-Mo microstructure (1597)-Mo thermal conductivity 1307-Mo,-W 1752-ss 756-ss thermal conductivity strength 1433-w casting /unidirectiona1/ thermal expansion
strength 2620U308-A1 strength wettingWC-Co microstructure 1201WC-Co sintering 277, 1254
measurement 2265theory 2805, 2906theory composites 2226, 2679
microstructure modelmodel 907model U02-Mo thermalresistivity (thin-fi1m)
e1ectrica1 conductivity,e1ectrica1 conductivity,e1ectrica1 conductivity,
e1ectrica1 conductivity
electrical conductivity /Ral1 effect/ SiO-Cr resistorelectrical conductivity /superconductivity/ composites
electrode ~~ contactelectronic componentthermionic emitter
electrode (1743), 1759e1ectrode A1203-Mo 2323
-w 1612compatibility 1873oxide-Ni 264, 366oXide/transition metal/- 1638rare earths 1064Sio-r10 221TiC-Cr,-Fe,-Mn patent 195ZrN coatings patent 2581
electrodepositing ~ coating (electrodepositing)
e1ectronic component see~ contacte1ectrodethermionic emitter
e1ectronic component 3, 92, 139, (175), 270, 367, 452, 529, 652, 1151, 1200,1373, (1528), 1807, 1992
e1ectronic component A1203- 1789cemented carbides patent 182c1assification 924bibliography +cemented carbides bibliography 143patent 2086Th02- 1365Th02-W 944TiC- ; oxide- 238survey 61, 69, 325
electroplating ~ coating (electroplating)
- 207 -
2885constitution2297
ErC2-Ir,-pt; YC2••• ; CeC2••• compatibi1ityEr203-Zr; Y203-Zr; Yb203-Zr constitution
etching ~ microstruce (etching)
EuB6-Hf,-Ta,-W compatibi1ity 2601Eu203- microstructure nuc1ear materials (contro1 rod) 2871Eu203-Cr,-Fe,-Mo,-Ni; U02-ss 1438
-Eu; Sm203-Sm; Yb203-Yb sonstitution 2603; Yb203-Yb compatibi1ity 2839
-ss 1544, 2033
evaporation ~~ coated particlescoatingcoatingsresistor (thin-film)
evaporation 1046
expansiun ~ thermal expansion
extrusion pressing ~ pressing (extrusion)
fatigue ~ strength (fatigue)
Fe-Mo-Co; Fe-W-C constitution 2239Fe3C-U constitution 2907FeSi2-Mo sintering 2918
Fe-Mo-Co; Fe-W-C constitution 2239
filter 1196
finishing (electrolytic) WC-Co 908
fission, fission products see fuel elementsnuclear materialsPu... fuel elementsU... fue1 elements
irradiationirradiation
flame spraying ~ coating (flame spraying)
flash sintering ~ thermite reaction
see also-----forming castingmachiningswaging
forming patent 1727forming (electroforming) 2349
fracture ~ microstructurestrength
fracture strength see strength (fracture)
friction material 185, 378, 446, 474, 647, 963, 1228, 1628, 1683, 1791, 2072
- 208 -
friction material A1203-Cr wear 1055MoS2- 2786patent 822WC-Co wear 2331WC-Cu patent 160WC-Pb 45wear 1164, 2202, 2212ZnS-Cr 2201
fuel elements ~~ nuclear materialsPu••••u••.
fuel elements 531, 556, 607, 711, (823), 844, 861, 872, 879, 895, 914, 967,971, 995, 1051, 1060, 1116, 1160, (1191), 1240, 1268, 1341,1352, 1541, 1598, 1606, 1730, 1756, 1788, 1964, 2103, 2321,2368, 2449, 2703~ 2718, (2797), 2896
fuel elements bibliography 2935, 2936, 2937, 2938, 2939, 2940bonding (754), (757), 968, 1198, 2254book 2232, 2233, 2472, 2473, 2513, 2518chemical analysis (microprobe) 1576coated particles 1190, 1244, 2919elastic constants 1215irradiation 1239, 1316, 2187, 2637, 2704, 2764irradiation bibliography 1123irradiation compatibility 2949mechanical properties (1891)microstructure 2651microstructure (distribution) 595microstructure /temperaturej 1697patent 1750, 1961, 2469, 2600powder metallurgy 1258, 2194pressing (extrusion) (1665), 1884pressing /compressibility/ (2332)rocket materials (1321)survey 65, 786, 848, (2797)thermal conductivity oxide- 2695, 2731swaging 778ZrH-U (784)
fuel elements, fabrication /rolling/ 2639
fuel elements /blistering/ 2638fuel elements /~s-cooled reactor/ 2101fuel elements /high temperature/ 2262fuel elements /temperature distribution/ 2157fuel elements /thermal diffusion/ 2348
Gd203-Mo 1204, 2568Gd203-Mo,-W pressing (hot) +Gd203-Ta compatibility 2914Ge02-Ge constitution 527
glass ~ Si02
grains, grain boundaries ~ microstructure
- 209 -
hard metals ~ cemented boridescemented carbidescemented oxidesTiC-WC-
hardness ~~ cutting materialfriction materialmachiningmechanical propertieswear
hardness A1203-Cr pressing (hot) strength microstructure 896coatings 2314Cr203- density 2107Cr203-Cr strength 1569cutting material cemented carbide 2604mixing 1887Pu02-Mo microstructure 2924
-Ta microstructure compatibility 2860silicide strength (2420)Si02- strength 746TiC- 1252TiC-Ni elastic constants cutting material 1856U02-Al pressing irradiation 952WC-Co elastic constants 2021
microstructure /cracks/ 2056, 2271, 2433, 2425strength 2642, 2643
hardness /T/ WC-Co 1232, 2023
heat treatment ~ sintering
heating element 261, 541, 651, 2617
heterogeneity ~ microstructure (distribution)
HfC-Cb,-Cr,-Mo,-V; TiC ••• ; VC ••• ; ZrC... wetting cutting material 1823-Co 857-Mo strength 2564-Re,-W; NbC ••• ; TaC••• ; ZrC ••• ; Ce02 ••• ; Th02 ••• ; Zr02 ••• ; TaB•••
compatibility wetting 2267Hf02~Co,=Fe,=Ni; J1gO••• ; BeO... 2256
-Hf canacitor 1826-Mo,-W; Th02 ••• ; Zr02... coating (flame spraying) patent 2228-W; MoSi-Mo; yt203-Cr coating 2513
HgO-Ag; Sn02-Ag; ZnO-Ag; CdO-Ag contact patent 768
high-temperature materials ~ refractories
hot pressing pressingpressing
(hot)(hot isostatic)
idealized microstructure ~ coated particles
impact strength ~ strength (impact)
impregnation ~ infiltration
impulse pressing ~ pressing (explosion)
- 210 -
industry jeconomic efficiencyj 2436
infiltration 43, 367, 373, 993, 1024, 1312, 1315, 1414, 1646 , 2872infiltration A1203-Ag patent 492, 532
-Ni (1588)-Ni patent 827
carbides 112, J076CrB2-Co,-Cr,-Fe,-Ni; VB••• ; WB••• ; ZrB... patent 448electrical conductivity model 2634MgO-Cr 1818
-Ni 1259oxide- 1332, 1444, 1747oxide-Mg 1704patent 583, 680, 1657, 1843, 1959,2794TiC- 100, 147, 445, 519TiC-Co,-Ni 1314
-Cu,-Ni 1313-Ni 71, 865-Ni strength 461-ss (1624), 2248-ss microstructure 1776
wetting 2069, 2729ZrB2-Cr coated particles 1159
infiltration, theory 79
infiltration jfloating zonej 1900, 1921
In203-Ag contact patent 120
interface see bondingjoiningwetting
irradiation ~~ fuel elementsnuclear materialsPu•••u•••
9911123
irradiationirradiation
395A1203-Cr microstructure 762BeO- fuel elements reviewcompatibility (corrosion)fuel elements bibliographyreview 1124
1337
isostatic pressing see pressing (hot isostatic)
joining ~~ bondingvacuum seal
joining 89, 151, 180, 687, 688, 689, 695, 708, 789, 923, 1172, 1288, 1296,1384, 1417, 1501, 1737, 1834, 2052, (2115), 2378,2840
joining A1203- 668, 2953A1203- mechanical properties (2185)A1203-Al,-Cm,-Fe,-Pb,-Pt (2470)
-Cr,-Mo; TiC-Mo,-Ni bearings 905-Cu,-ss,-Ti compatibility mechanical properties 2408-Nb 2245
- 211 -
joining' bibliography 1668, 2829book 2158chemical analysis (microprobe) 1710coating 2162cutting material 851oxide- 1471patent 142, 1609, 2189, 2597, 2823, 2833, 2899patent thermal expansion 1912, 2464pressing 947review 400Si02- 2369, 2430, 2886survey 707, 2430thermionic emitter 1285 1310, 1351TiC-Co,-Ni; WC-Co,-Ni 774
-Ni 265-ss machining 564
Ti02-W; Y203-W 2174U02~W 2356, 2489WC-Co 2373
KBr-K; KCI-K; KJ-K constitution 712
LaB6-Hf,-Re,-Ta,-W; CeB6•••LaB6-W thermionic emitter
compatibility1790
2841
La203-U; SrO-U; U02-U; BeO-U; CaO-U compatibility /crucible/ 2259La203-W thermionic emitter 2017
laminates 683, 1564, 172~ 2698lamina~es A1203-Ni strength 1888
patent 669thermal conductivity 951
LiF-Li constitution 1173
lubricating materials ~ friction materialwear
machining ~~ cutting materialformingswaging
machining 399, 432, 433, 434, 456, 498, 713, 1263, 1414, 1434, 1563, 1618,1919, 1960, (2126), 2371, 2480, 2533, 2676
machining A1203 strength electrica1 + thermal conductivity 405cemented carbides 274, 1066, 1755pressing 1583TiC-Ni 587
-ss joining 564U02-Mo e1astic constants 1479
strength 1958U308-Al pressing 2283WC-Co 592, 2035, 2567, 2690
- 212 -
machL~ng WC-Co microstructure 2421wear 1974, 2699wear TiC-Co; WC-Co 2749
magnetic properties WC-Co microstructure 26
materials
materialsmaterialsmaterials
2059, 2116, 2326, 2339, 2544
!deVel opment ) 2364, 2370new) 1842, 1866, (1901), 1908, 1967, 2190sintered) classification 2344
measurement ~ el~stic constarits, measurementeleGtrie~l conductivity, measurementstrength, measurementthermal conductivity, measurementthermal expansion, measurement
19792112
2541
2915
658, 809
14091415
2782
~~ elastic constantshardnesspressingstrength
(1007), 1464, 1857, 2041, 2062, 2746A1203-Cu 2479
-Mo pressing (hot)bibliography 887cemented carbides 567composites 1688 ,Cu20-Cu electrical conductivityfuel elements (1891)microstructure 777microstructure statistics 1463survey ceramics 552, 2124, 2404Si02-W 2191stresses 109, (129), 1653testing 649, 1005TiC-Ni 295TiC-Ni microstructureUN-Mo,-W; U02... 2179U02-ss (1136)U02-ss fuel elementsU308-Al fuel elementsWC-Co 294, 1457, 1698WC-Co,-Cu bonding 1004
-Co constitution (solubility)-Co,-Fe constitution (solubility)-Co sintering 1130
Y203-Zr 2085
/temperature/mechanical properties
mechanical properties
mechanical propertiesmechanical properties
metal1izing ~ coated particlescoating
metal10graphy see microstructure
MgO- elastic constants 1997MgO-Ag,-Si,-W; MoSi2••• ; NbC ••• ; TaC ••• ; Th02••• ; TiC••• ; ZrC••• thermal exp. 871
-Be,-Co,-Cr,-Fe,-Ni,-Zr; BiN••• ; TiB2••• ; TiN••• ; ZrB2••• ; ZrC••• ; Zr02 ••• ;A1203••• ; Cr203... 134
-Be,-Fe,-Ni,-Si; Ti02 ••• ; Zr02 ••• ; A1203 ••• ; Be2C••• ; BeO... 105
- 213 -
MgO-Be,-Mo,-Ni,-Si,-Zr; Th02••• ; Ti02 ••• ; Zr02 ••• ; A1203... compatibility 117-Bi,-Na,-Sn; TaC••• ; A1203... compatibility 321-Co,-Fe,-Ni; Zr02 ••• ; A1203 ••• ; BeO••• ; Cr203... constitution 55-Co,-Ni; A1203-Cr,-Fe 533-Co,-Fe,-Ni; BeO••• ; Hf0... 2256-Cr 1540-Cr infiltration 1818
structural material 2736structural material thermal expansion 2148
-Cr,-Mo,-U,-W patent 640a-Cr,-Ni 2009-Fe,-Ni; Zr02••• ; A1203... 483-Mg compatibility 2943-Mo; Zr02-Mo,~W coated particles strength 1712-Nb,-Ta,-W; Th02••• ; Y203••• ; A1203••• ; BeO... compatibi1ity 1803-Ni 227, 390, 1996-Ni coating 166, 538, 725
diffusion /Xe133/ (497), 984infiltration 1259thermal expansion wetting 1026
-S8; A1203-ss thermoelement 2377-W; Cr203-Mo,-Re,-W casting microstructure 2735-W; SiO-Al thermal expansion 590
microstructure 228, 454. 1432, 1530, 1846, (1867), (1879), 2280, 2459, (2663),(2683), 2684, 2685,2686, 2687, 2738, 2740, 2741, 2745, 2750,
microstructure A1203-Cr 620 2783, 2790A1203-Cr irradiation 762
pressing (hot) strength hardness 896sintering strength 398, 503
-Mo 1623, 2680, 2681-Si 2186-ss 1817, 2739
carbides 476cemented carbides 40, 90, 137, 199, 327, 1297, 2071, 2481cemented carbides mechanical properties 1095, 1192ceramics book 2210compatibility (2733)composites 1825, (2663)constitution 2803fuel elements 2651mechanicalproperties 777mechanical properties statistics 1463model 2458, 2509, 2689, 2911model electrical conductivity 2894
pressing 1171WO-Co 1845
nuclear materials 1640, (2683)oxides 1764, (2683)physical properties (2732), 2734Pu02-Mo hardness 2924
-ss; Pu203-ss; U02-ss fuel elements, fabrication 1647resister (thin-film) SiO-Cr 2100rocket materials 654sintering 2641sintering NbC-Ce 2346
wetting 889Si02-Au resister (thin-film} 2508strength 327, 1695strength statistics 1333
- 214 -
2266, 23952340
2657
2044, 2289, 24812711
solid./ 2657
2856
15301686
2879
1562
1201
1935
(1597)1935
658, 809888
2280
9871982
-Ni;-ss
UC-U
strength (fracture) 2389Th02-Mo coated particles pressingTiB-Co; TiC-Ni,-8i 394TiC- sintering strengthTiC-Co; WC-Co sintering
-Cr,-Mo,-Ni 1175-Ni bonding 1183
mechanical propertiesWC-Co,-Cu strengthinfiltration 1776
sintering 2570wetting 1995
~W; U02-W coated particlesUN-Cu; U02-Cu ~2495)
-W; U02-Cu,-Mo; Zr02-ssU02- 1039, 2711U02-Al,-Cu,-Mo,-Nb,-Ni,-ss; BeO-W; Th02-W
-Cs,-Li,-U; UC ••• ; UK... compatibility-Mo fuel elements 1206, 2312-Mo irradiation 2893-W electrical conductivity-W; UC-W coated particles-Zr 303
VC-Ni patent 208WC-Co 443, 697, 1071, 1453, 1800, 1801, (1837),WC-Co casting sintering physical properties
casting (unidirectional solidification)constitution 289electrical conductivitymachining 2421strength 374, 387, 795, 860, 1184, 1829, 1862,
2218, 2395, 2623strength hardness 2438, (2664)strength (compressive) 1406thermal expansion 1305
WC-Co, TiC-Co sintering 845Y203-Zr 1953Zr02-Mo 1554, 1994
-Mo,-W 2079-Zr (1389)
(autoradiography) U02- 1443(distribution) 1169, (1998), (1999), 2240, (2241), (2242),
(2279), 2459, 2460, (2461), 2903fuel elements 595fuel elements U02-Momodel review 2458powder meta11urgy 1948thermal conductivity modelWC-Co 663, 2549WC-Co pressing 2292
(distribution)/temperature/ (1565)(electron microscope) 1247, 1875, 2476, 2778(electron microscope) cemented carbides 443,
PuC- 1303U02-W casting /unidirectionalU02-W,-Zr 2658WC-Co 2261, 2450, 2666~ 2669, 2670, 2671,WC-Co strength (fractur) 2442 /2857
microstructure
microstructuxemicrostructuremicrostructure
microstructure (distribution)
microstructuremicrostructure
microstructure (etching) 2078, 2757
- 215 -
2557
2598
2648
657
2203wear
(etching) TiB2-Ni; TiC-Ni(grinding) 1691, 1930, 2284(high temperature) 517
(idealized) ~ eoated partieles
1
1i nea l analysis) 1799partiele size) WC-Co 2391polishing) 161, 513, 1691, 1928, 2066, 2684, 2962polishing) WC-Co 1503
(porosity) composites 2863electrieal + thermal conductivitymodel review 2633strength (tensile) 2868TaC-Ni 1319therrnaloonduetivity 2713, 2895cemented carbides 1786, 2666WC-Co 696, 763, 1161, 1439, 1782, 2019, 2020,
2064, 2207, 2396, 2423(stresses)jx ray/ TiC-Ni 753
jeracksj hardness WC-Co 2056,jgrain growth/ NbC-Co,-Fe,-Ni sintering jliquid phasej
WC-Co 2401semented carbides32
microstrueture jgrain size/microstrueture /idealized/mierostructure /surfaeej
microstrueture
microstructure (stresses)
microstrueturemicrostructure
microstructuremicrostructuremicrostructure
mierostrueture
mieros t ructuremierostrueturemieros trueturemierostrueturemicrostrueture
~~ powder metal1urgymi11ing
mi11ing Cr2BWC-CoWC-Co
12201084, 2010
mixing 2892sintering 1641
mixing see also----- powder meta11urgy
2892
1174patent
25851029
carbides 29541806, 1849
book 22162647
milling
mixing bookcastingcementeddensitydensityreviewWC-Co
MnB2-Si 522MnB-Si; Mn2B-8i; CaB6- bonding 191
MnO-Co,-Fe,-Mo,-Ni; 8iO••• ; ZnO••• ; Cr203 •••
MoB2-Co,-Fe,-Ni; NbB2 ••• ; TaB2 ••• ; WB2... patent 204-Cr,-Mo,-Zr; Zr~••• ; Cr2B... 346
Mo2C-Co microstructure 36WC-Co patent 76, 81
MoC-Mo; NbC-Nb; TaC-Ta; TiC-Ti; WC-W; ZrC-Zr coating 2708-Ru 2843
model ~~ density••• , theory
model data evaluation 2384density 2537die1ectric properties 2853e1astic constants 1957, 2806, 2854
- 216 -
2948SiO-Au; Si02-Au1793
2263
2633
electrical conductivity infiltration 2634resistor (thin-film)
electrical + thermal conductivity compositeseleetrical conductivity. theory 907microstructure 2458, 2509, 2689, 2911, 2917mieros tructure pressing 1171
U02-JvIo ]j80
WC-Co 1845mierostructure(porosity) reviewsintering, theory 1403strength 1779, 1916, 2537strength elastic constants Si02-Ni,-W 2536
U02-Mo 1480strength thermal expansion 2808strength (creep) composites 2037thermal conductivity microstructure (distribution) 2855thermal conductivity, theory 1139, 1193, 2150, 2787, 2805
/packed bed/ thermal conductivity 2307/porous body/ 2328/stress simulation/ rocket material
model
modelmodelmodel
MoS2- friction material 2786MoSi-Mo; Yt203-Cr; Rf02-W coating 2573JVloSi2- 962MoSi2- ; TiB2- ; TiC- microstructure (high temperature)MoSi2-Ag,-Si,-W; NbC••• ; TaC ••• ; Th02••• ; Ti02 ••• ; ZrC••• ;
thermal cond. 747MgO ••• thermal
expansion 871-Co,-Ni,-Pt strength 335, 435-Cr,-Cu,-Ti strength 575-Mo 169-Ni strength electrical conductivity patent 529
MoSi3-Sn; SiC-Sn; A1203-Sn wetting 796
thermal exp.mechanical prop.
2751
577554, 555
2884
NaCl-Na; NaF-Na; NaJ-Na constitution 938NbB2-Co,-Fe,-Ni; TaB2••• ; WB2••• ; MoB2... patent 204NbC-Ag,-Si,-W; TaC••• ; Th02••• ; TiC••• ; ZrC••• ; MgO••• ; MoSi2•••
-Co casting junidirectional solidificationj microstructuesintering microstructure 2346
-Mo,-Nb,-Ta,-W; ZrC... coatings book 2168-Nb; TaC-Ta; TiC-Ti; WC-W; ZrC-Zr; MoC-Mo coating 2707-Pu; Y203-Pu; ZrC-Pu; Zr02-Pu; CaF2-Pu compatibility /crucible/-Re,-W; TaC••• ; ZrC••• ; Ce02••• ; Th02••• ; Zr02 ••• ; TaB••• ; RfC•••
eompatibility wetting 2267-ss; TaC-ss; TiC-ss; VC-ss 828-Ta; TaC-Co; TiC-Co; VC-Co; WC-Co strength
Nb205-Cr; Ta205-Cr; Ti02-Cr; A1203-Cr patent-Nb coatings resistor jsuperconduetor/
NiO-Be; W03-Ni com~tibility 869
Np02, U02, Am02, Cm02 coatings 2333
871
2630
nuelear materials ~ also fuel elementsPu." •u...
nuclear materials 140, 436, 472, 530, 599, 605, 661, 965, 995, 1031, 1210,1375, 2050
- 217 -
nuclear materials A1203-Cr; SiC-Si; U02-ss 965book 2548book /dictionary/ 2433BC- 471carbide- 1551, 1575compatibility 1390microstructure 1640, (2683)powder metal1urgy review 1083rare earths 1104SiC-Si 477, 478
nuc1ear materials (contro1 rod) 671, 779, 997, 1883nuc1ear materials (contro1 rod) Eu203- microstructure 2871
optical properties A1203-Cr 1255
oxideoxide-
oxide-
;oxide-Al
-Cu-Mg-Na-Ni-Pt-U-"'vI
20, 704, 1000, 2012, 2139, 2534bonding 2407coating (flame spraying) 2193compatibility 377, 733, 1502, 2235, (2531), 2927constitution 438, 493, 733, 1511cutting material 548, 571fuel elements (1361)fuel elements, fabrication patent 1111infiltration 1332, 1444, 1747joining 1471microstructure 1764, 1810patent 1128, 1477, 1556, 1915, 2386, 2415patents bibliograp~y 1328pressing 311, 2429refractories 970review 1392review +definition 2163sintering 1249, 2106strength (290), 465, 1777, 1794, (2095), (2484)survey 15testing 1965thermal conductivity fue1 element 2695, 2731thermoelement 682wetting (589), 855, 1006wetting bibliography 2002
boride- ; carbide coating (electroplating) 1176carbide- 333, 986carbide- eompatibility 1611, 2773
wetting 388, 488, 1137TiC- electronic component 238
strength 2781002
infiltration 1704compatibility (corrosion) 1052electrode 264, 366compatibility 2627
compatibility 566rare earths thermionic emitter 2016
OXide/transition metal/- electrode 1638
oxides coatings 1088, 2306
- 218 -
448
2228
1370
Zr02.~.
1174
2661
1478
infiltration
876
strength 876219, 310, 362, 426, 603, 660, 734
Ti02-Cr 554, 555
178
178strength
760224, 304, 336, 512, 742, 870
492, 532
827
1750, 1961, 2600, 2876oxide- 1111U02-Al,-Nb,-ss,-Ti,-Zr
-Mo,-W 13711657, 1843, 195~ 2794
1328
2086
572
A1203-Ag-Co-Cr-Cr
156, 424, 1218, 1324, 1344, 1408, 1492, 1496, 1610, 2493, 2780,AIN- strength 612 /2876, 2944AIN-Al 531A1203- casting (slip c.)
cutting tool 2586resistor 752infiltration669603, 705, 788, 821
casting (slip c.)thermite reaction
-Cr; Nb205-Cr; Ta205-Cr;-Cr,-W 133, 195
Al203-Mo 407, 1027-Ni 978-Ni infiltration-ss; U02-ss 1590-W; BeO-W co&ted particles bonding
BC-Al; SiC-Al 1621bearing 911bibliography oxideB203-Al coating 867BeO-W 1560bonding 1765, a772, 2874casting (slip c.) A1203-
A1203-CrU02-Bi70, 103,CdO-Ag contact
..Ag,-Cu 698-Ag; CuO-Ag contact 1478-Ag; HgO-Ag; Sn02-Ag; ZnO-Ag contact
cemented carbides 884cemented carbides casting 132
electronic component 182coated particles 272, 2594, 2612, 2753, 2819coated particles pressing 2748coating 272, 2648, 2678, 2835, 2836coating (electrodeposition) 2877coating (flame spraying) Hf02-Mo,-W; Th02~~~;coatings 867coatings casting 1533
ZrC 2582ZrN 2581
contact 152, 413CrB2-Co,-Cr,-Fe,-Ni; VB••• ; WB••• ; ZrB•••Cr2B-Cr 874
-Cr,-Mo,-SiCr203-Al 1108
-Co,-Fe,-Mo,-Ni; MnO ••• ; SiO••• ; ZnO•••+definition 1492electrode 195electronic componentforming 1727friction material 822fuel elements, fabricationfuel elements, fabrication
infiltration 583, 680,In203-Ag contact 120
patentpatent
- 219 -
patent joining 142, 1609, 218~ 2597, 2823, 2833, 2899joining fuel elements 2469
thermal expansion 1912, 2464laminates 684MgO-Cr,-Mo,-U,-W 640a}mO-Co,-Fe,-Mo,-Ni; SiO••• ; ZnO••• ; Cr203... 1174MoB2-Co,-Fe,-Ni; NbB2 ••• ; TaB2••• ; WB2... 204"MoC-Co; WC-Co 77, 81MoSi2-Ni strength electrical conductivity 529oxide- 1128, 1477, 1556, 1915, 2386, 2415, 2622pressing U308-A1 1729pressing (extrusion) 1625, 2665pressing (hot isostatic) 2606PuC-Be,-Cr,-Fe,-Mo,-Nb,-Ta,-ss,-W; FuN••• ; P02 ••• ; PuS••• ; UC ••• ;
UN••• ; V02••• ; US... 1775resistor 2109, 2122, 2133, 2161, 2529resistor (thin-fi1m) 1295resistor /trimming/ 2441review 422Si02-Au,-Cr resistor 1944SiO-Co,-Fe,-Mo,-Ni; ZnO••• ; Cr203 ••• ; MnO... 1174Si02-Ru resistor 1963Sn02-Ag contact 87, 97structural material 1372TaC- 177Th02-Bi; PuO-Bi; U02-Bi 1061
-Ni 2257-Th 593-Zr sintering compatibility 524
Th02- ; Zr02- 244thermite reaction 301, 302thermoelement 840TiC-Al 2381
-Cr,-Fe,-Mn electrode 198-Fe 207
Ti02-Cr 693, 841Ti02-Cr pressing 57e, 574turbine material 515UC-Nb coateq particles fue1 elements, fabrication 2543
-U 1030, 1836UN-Cr 1377U02- fuel element 2831U02-A1 1547
-Bi casting (slip c.) 960-Cb,-Nb 2428-Cr,-Cu,-Fe,-Mo,-Ni fuel elements, fabrication 835-Ni fue1 elements, fabrication 2878-ss fuel elements 1456
VC-Ni microstructure 208WC-Co 125, 371, 581, 2049, 2584, 2585, 2674, 2724WC-Co cutting material 2723
-Co,-Fe,-Ni 491-Cu friction material 160-Fe 206
wear 305Zr02-W rocket material 2439
PbCl2-Pb; MgC12-Mg constitution
PbO-Pb; Cu20-Cu constitution
504
286
- 220 -
pe11etizing ~ powder meta11urgy
permeability density 2763
phase amount, phase distribution ~ microst~~cture (distribution)
phase diagram ~ constitution
physica1 properties ~~ e1astic constantse1ectrica1 conduötivityhardnessmechanica1 propertiesstrengththermal conductivitythermal expansion
physical properties constitution 1877microstructure (2732), 2734microst~1cture statistics 1463
physical properties /acoustic emission/ composites (2238)
physicochemica1 properties ~ constitution
plasma spraying ~ coating (flame spraying)
Pm203=Re,=ss,=Ta; Sm203=Re,-Ta,-Ti,-W
porcelain 1168
porosity ~ densitypreesingmicrostructuresintering
compatibility 2653
potentiometer ~ resistor
powder metallurgy 192, 334, 357, 410, 495, 514, 678, 799, 966, 1210, 1635,2221, 2793
powder metallurgy A1203=Cr carbide- nitride- 326book 2611cemented carbides technology 2640ceramics 1246fue1 elements 1258microstructure (distribution) 1948mil1ing WC-Co 1084, 2010nuclear materials (1098), 1311nuclear materials review 1083review 724TiC- 263U02- 1292WC-Co 1524
powder metal1urgy /USSR/ 692, 702
precipitation ~ coating (precipitation)
pressingpressing
353, 357, 1067, 1379, 1466, 1605, 1880, 2347, 2775bearing 1156cemented carbides 1025, 1815coated partic1es patent 2748joining 947machiniQg 1583
- 221 -
pressing microstructure model 1171microstructure (distribution) WC-Co 2292model 1806oxide-Al rare earths 2429Pu02-Mo sintering 1125Si02- 1876Th02-Mo coated particles microstructure 2879
-W mechanical properties 2856TiC-Co 721TiC-Cr patent 570UN-Al,-Mo fuel elements corrpatiblity 903
-Mo,-W coated particles 2542UN-Mo; U02-W; US-W compatiblity irradiation 1353U02- strength 1154U02-Al irradiation hardness 952
-Cr,-Mo,-Nb e1ectrica1 + thermal conductivity 824-JVIo,-W 1157
U308-Al patent 1729UP2-U; U3P4-U; US2-U sintering 2411WC-Co 1495, (1645), 1841, 2320, 2851WC-Co sintering 1797
pressing, theory density 2342, 2566
pressing (explosion) 1780, 1882, 2385pressing (exnlosion) TiC-Ni strength 1021
ill';--W; U02-W 1153U02-Mo,-W 2920
pressing (extrusion) (1476), 2692pressing (extrusion) A1203-Ni 2094
-Ti 783carbides 425cemented carbides 958fuel elements (1665). 1884uatent 1625, 2665TiC-Co; WC-Co 2521, 2522
-Ni 1374U02- 1089, 1494U02-Al 989, 1101
-Fe 792-Mo,-W 2920-ss sintering fuel elements, fabrication 1010-W fuel elements 1153-Zr 545
U308-Al (1290)
thermal expansion electrical + thermalconductivity 2322
thermal expansion electrical + thermalconductivity fuel elements 1060
896
2914
936
U02- 769, 1292U02-Cr,-Mo,-~o,-ss
2457A1203-Cr,~Cu,-Fe thermite reaction 1627
-Cr strength hardness microstructure-Mo mechanical properties 2915, 2961-Nb 2324
fuel elements (1548)Gd203-Mo,-W +Gd203-Ta compatibilityoxide- 311survey jEnglandjTiC-Co 1013
-Ni 882UC-Cr,-JVIo,-Nb,-W
pressing (hot)pressing (hot)
- 222 -
(2164)
1919U02-Mo,-W coated partialesWC-Co 976, 1306ZrC-Ni 2018
1489, 1661, 2165, 2491, 2842fuel elements 1643patent 2606U02-Cr coated particles physical properties 2559
-Cr,-Mo coated particles electrical + thermalconductivity strength irradiation 2558
-Cr,-Mo,-W coated particles (2616)-Mo coated particles 2560
thermal conductivity strength-W fuel elements 2315
pressing (hot isostatic)pressing (hot isostatic)
pressing (hot)
pressing (magnetic) U02-Mo,-W 2091pressing (vibratory) 1666, 2001
pressing /autoclave/ cemented carbidespressing /compressibility/ fuel elementspressing /deformation/ WC-Co 2318
2417(2332)
protective coating see coatingcoatings
Pr02-W pressing 2347
TIN••• ;1981fuel elements irradiation
Pu02 ••• ; PUS ••• ; PuCQ~.; UC. 0 6 ;
U02••• ; US... patent 1775
PUC- microstructure (electron microscope) 1303PuC- ; PuN-; Pu02- ; PuP- ; PuS- fuel elements irradiation 1981PuC-Be,-Cr,-Fe,-Mo,-Nb,-Ta,-ss,-W; FuN••• ; Pu02 ••• ; PUS ••• ; UC ••• ; UN••• ;
U02••• ; US... patent 1775-Cr; Pu02-ss; U02-ss chemical analysis 1693-Ru; UC-Ru chemical analysis 2127-sS; UC-ss compatibility 2060~W; UC~W constitution 2858
PuC2-Ta 2233FuN- ; Pu02- ; PuP- ; PuS- ; PUCPuN-Be,-Cr,-Fe,-Mo,-Nb,-Ta,-ss,-W;
FuN-Cr compatibility 2706Pu02- compatibility 2532, 2776Pu02- ; PuP- ; PuS- ; PuC- ; PuN- fuel element irradiation 1981Pu02- ; U02- fuel elements, fabrieation patent 2167Pu02-Be,-Cr,-Fe,-Mo,-Nb,-Ta,-ss,-W; PUS••• ; PUC ••• ; FuN••• ; UC ••• ; UN••• ;
U02••• ; US... patent 1775-Bi; Th02-Bi; U02-Bi patent 1061-Cr,-Ni; U02-Cr,-Ni compatibility 1603-Mo coated particles pressing (hot) 2827
constitution 2825microstructure hardness 2924pressing sintering 1125sintering 992
-Mo; Cm02-Mo compatibility 2575-Mo,-Re,-W; Cm02... compatibility 2813, 2814, 2815, 2816-Ft,-Rh compatibility 2777, 2830-Rh compatibility (2197-Si,-ss; U02-Si,-ss compatibility 1381-ss fuel elements irradiation 1648-sS; Pu02-ss; U02-ss fuel elements, fabrication microstructure 1647
U02-ss fuel elements irradiation 1613, (1848)fuel elements, fabrication 2861
- 223 -
Pu02-ss; U02-ss pressing sintering 2862strength elastic constants 2125thermal expansion compatibility 2902
; PuC-Cr chemical analysis 1693-Ta 2233-Ta compatibility microstructure hardness 2860-Zr 1166
Pu203-ss; Pu02-ss; U02-ss fuel elements, fabrication microstructure 1647PuP- ; Pus- ; PuC- ; PuN- PU02- fuel elements irradiation 1981PUS- ; PuC- ; PuN- ; Pu02- ; PuP- fuel elements irradiation 1981PuS-Be,-Cr,-Fe.-Mo,-Nb,-Ta,-ss,-W; PUC••• ; FuN••• ; Pu02••• ; UC ••• ; UN••• ;
U02••• ; US... patent 1775
radiation effects see irradiationPu... irradiationU... irradiation
rare earthsrare earths
1074, 1075electrode 1064nuclear materialsoxide-Al pressingthermionic emitter
11042429
2251
RbCI-Rb; RbF-Rb; RbJ-Rb constitution 939
reaction see compatibilityconstitution
reaction sintering ~refractories ~~
thermite reactioncemented carbidescemented oxidesrocket materialTiC. ••turbine materialWC •••
refractories (very high temperatures) ~~ refractories (superrefractories)
refractories 16, (62), 99, 107, 155, 197, 232, 233, 241, 275, 276, 280, 361,368, 379, 408, 418, 458, 540, 600, 648, 731, 800, (847), 1448,2178, 2530, 2802
refractories book 2726coatings 1146constitution 386, 408+definition 25oxides 970powder metallurgy 495review 276, 1949survey 53, (83), 94, 95, 447, 597, 849testing 364, 523, 2535wetting 2650
refractories (superrefractories) 170, 181, 248, 257, 261, 313, 314, 315, 359,389, 404, 411, 420, 428, 479, 487, 541, 560,586, 628, 630, 643, 645, 646, 662, 665, 731,740, 842, 1224, 2535
research & deve10pment /England/ 1028
- 224 -
resistance sintering ~ pressing (hot)
resistance (chemical) ~ compatibility (corrosion)
resistivity see electrical conduction
2055
20552032, 2867
2038, 2153, 2176,2572, 2634, 2655
2083, 2269
2032
Si02-Au,-ss,-V; SiO-CrTaO-Au,-Pt; W03-Au,-Ptsputtering 2032, 2900W03-Au,-Pt; Ta8 • • sputtering
patent 2441
699, 1378, 1490, 1558, 1600, 1757, 2096, 2140, 2361, 2362, 2821, 2850A1203- patent 752A1203-Ta capacitor 2092patent 2109, 2161, 2122, 2133, 2529Si02-Au,-Cr 1944
-Ru patent 1963(thick-film) 2486, 2575, 2587, 2958(thin-film) (220), 1617, 1774, 1950, 2156, 2223, 2446, 2586, 2754(thin-film) A1203-Ta electrical conductivity 2448
electrical conductivity, theory 2948patent 1295review 2555SiO-Cr. 1753, 1805, 1854, 1937,
2260, 2291, 2383, 2446,SiO-Cr electrical conductivity
microstructure 2099sputtering 1980wear 2155
SiO-Cr; Si02-Au,-ss,-V sputteringSi02-Au microstructure 2508
sputtering 2054sputtering electrica1 conductivity micro
structure 2125sputteringsputtering
resistorresistorresistor
resistorresistor
resistor /trimming/
review ~~ bibliographybookdatasurvey
review 437, 616, 676, 700, 801, 934, 1018, 1402, (2073), 2084, 2290, 2466review BeO- fuel elements irradiation 1337
bonding 2217casting (slip c.) 897, 922cemented carbides 66compatibility /powder compacts/ 2454composites 1270, 1367, 1941constitution 2574, 2907electrical conductivity, theory 2906irradiation 1124microstructure 2684microstructure (distribution) 2458microstructure (porosity) model 2633mixing 2647oxide- 1392oxide- +definition 2163powder metallurgy 724refractories 276, 1949resistor (thin-film) 2555strength (fracture) 2114
- 225 -
review technology 1732, 2367UC-Nb,-Si,-Ti,-Zr fuel elements 1343'viC-Co 2553'viC-Co strength 2643
review jhistoryj rocket material 2040
rocket material ~~ refractories
rockei material
rocket material
360, 404, 420, 479, 487, 529, 586, 646, 654, 667, 714, 732,782, 805, 815, 905, (906), 977, 983, 990, 1063, 1091, 1099,1100, 1105, 1138, 1329, (1505), (1569), 1580, (1719), 1728,(1773), (1830), (2177), 2350, 2377, 2439, 2544, 2883
fuel elements (1321)model jstress simulationj 2263review jhistoryj 2040
rolling ~~ fuel elements, fabrication
rolling U02-'vi 1709
sealing, seals ~ joiningvacuum seal
sessile drop ~ wetting
shielding U02-Pb 1596
SiC- bonding 258,421strength 1509
SiC-Al; BC-Al patent 1621-Co,-Cu,-Ni,-Sn; Si02888; Zr02••• ; A1203... wetting 1440-Cr compatibility 2915-Cr constitution 2159-Fe bonding 184-Mo compatibility 1812-Ni; TiC-Ni 918-Si 477, 478, 961-Si; Cr203-Al 423
SiN-Si; A1203-Cr 1100; U02-ss; A1203-Cr 965
-Sn; A1203-Sn; MoSi3-Sn wetting 796
SiN- refractories 361SiN-Si; A1203-Cr; SiC-Si 1100
1401, 2446, 2572398, 503
2346889
2641NbC-Cowetting
38, 149, 205, 354, 357, 397, 534, 996,A1203-Cr microstructure strengthcemented carbides 641, 1706constitution 2689Cr203-Cr 2327FeSi2-Mo 2918microstructuremicrostructure
sinteringsintering
oxide- 2106oxides 80Pu02-Mo 992
- 228 -
stereometrie distribution ~ microstructure (distribution)
415electrical conductivity723
strength 187, 369, 661, 880, 904, 929, 1015, 1017, 1405, 1664, 1695, 1738,1739, 1740, (2076), 2120, 2230, 2544
strength AIN- patent 612A1203- 1890, 2275, 2276A1203-Ag,-Cu 1284
-Cr 626-Cr sintering microstructure 398, 503-Fe ,-Ni pressing electrical + thermal conductivity 122-Ni laminates 1888
bearing 877bonding (1467), 2325~mented carbides 608, 2198. 2807ceramies 2628coated particles MgO-Mo; Zr02-Mo,-W 1712data evaluation WC-Co 1639elastic constants model 834, 1630hardness WC-Co 2642HfC-Mo 2564microstructure 1695microstructure cemented carbides 327, 1095, 1333
TiC-Ni 475TiC-Ni; WC-Co.-Cu 888WC-Co 374. 387. 1184. 1829, 1862. 2218, 2395
model 1779. 1916, 2537NbC-Co; TaC-Co; TiC-Co; VC-Co; WC-Co 577oxide- (290). 465, 1777, (2095)Pu02-ss; U02-ss elastic constants 2125review 676SiC- 1509silicide- hardness 746Si02- hardness (2420)Si02-Ni,-W elastic constants model 2536statistics WC-Co 1639testing 1363, 1680, (1904)testing cemented carbides 2462
elastic constants UN-ss; U02-Mo (1783)U02-W 1498
Th02-Cr 2554-Mo 96, 2897
TiC- 466TiC-Ni 460, 461, 617, 619
-ss 948U02- pressing 1154U02-Cu (2068)
-Cu; U308-A1 elastic constants 2285-ss electrical + thermal conductivity 1433-W 1539
WC-Co 594, 775, 1208, 1436, 1504. 1768, 1920, 2166, 2225, (2387).2791, 2873
WC-Co review 2643
strength, measurement (481), 1871strength, measurement CdS-In; CdSe-In; ZnO-In
testing data evaluationstrength, theory 1943, (2477), 2494, 2808strength, theory elastic constants 2471
WC-Co 2061, 227~ 2890
- 229 -
2849
2654
2462
2868
e1ectrical conductivity
21702147, 2264, 2592, 2667, 2880
(electron microscope) 2442
2037
strengthstrengthstrength
strength (fracture)strength (fracture)
strength (bending) A1203-Fe coated particles bonding elastic const.cemented carbides 826testing (1107)testing data evaluation 623WC-Co 2224, (2388), 2443, 2622WC-Co compatibility 1622
strength (compressive) WC-Co 1253, 2550, 2688, 2708WC-Co microstructure 1409
strength (creep) 341, 349strength (creep) model composites
testing 803U02-Mo 237, (2677)U02-W coated particles 2170
strength (fatigue) 0emented carbides testingWC-Co 731, 2270
1738, 1778, 1813, 1827, 1835, 1861, 1899, 2057, 216~ 2789composites 1962microstructure 2389review 2114Si02-Ni 2715TiC- 2313U02-W coated partic1esWC-Co microstructure
microstructurestrength (imP.act) 188,506, 525, 526, 610strength (impact) Sm203-W 2227
testing 10llTiC-Ni 521, 613
strength (tensile) A1203-Au,-Pt; Th02•••BeO-Cu 2463density 2444microstructure (porosity)WC-Co 606·
~thermal shock) (2181)thermal shock) WC-Co 1902torsion)/T/ WC-Co 1631
stresses
stressesstresses
~~ microstructure (stresses)
837bonding 2485cemented carbides 1289TiC-Ni 843, 881U02-W 1567WC-Co 1266, 1620, 1681, 1682
structural material 499, 586, 751, 831, 943, 1045, 1132, 1242, 1572, 1584,1655, 1660, 1735, 1853, 1993, 2003, (2010), (2160),2178, 2501, 2608~ 2700
structural material coatings (2527)MgO-Cr 2678MgO-Cr thermal expansion 2148patent 1372
superrefractories ~ refractories (superrefractories)
surface coating ~ coatings
surface energy ~ bondingwetting
- 232 -
thermal conductivity UC-Mo; UN-Mo; U02-Mo electrical conductivity strengthirradiation 1626
UN-A1~-Cu~-In~-Mo~-ss~-V 2932-Bi e1ectrica1 conductivity 1145-Cr,-Fe,-Mo,-Nb,-Ta,-Ti~-W~-Zr; U02-Cr,-Mo~-Nb fue1
elements~ fabrication 946U02-A1 2043, 2058
-Cr,-Mo,-Nb pressing electrical conductivity 824-Cr,-Mo,-Nb,-ss pressing (hot) thermal expansion
electrica1 conductivity 1060-Cr,-Mo; UN-Cr,-Fe,-Mo,-Nb,-Ta,-Ti,-W,-Zr fue1
elements, fabrication 946
thermal exp.1763
(2164)
1062
1433, 1479
2422
1307, 1479strength
irradiation
-Cu 457-Fe,-Ni,-W microstructure /texture/-Mg,-Mo,-Nb 899-Mo electrical conductivity
pressing (hot isostatic)strength 994, 1479
-Mo,-ss coated particles-Mo,-W 1500, 1987-ss electrical conductivity strength-W 1472, 1758, 2053, 2503-W casting /unidirectional solidification/ strength
e1ectrica1 conductivity 2620particles 2220
(2528)coated
-W; U308-AlWC-Co 2952
Zr02-Ti strength elastic constants-Zr 1733
measurement 384, 1617, 1851, 2154, 2497measurement lin-pilel 2213theory 2199, 2800, 2805theory model 1139, 1193, 1970, 2150, 2787
thermal conductivity,thermal conductivity,thermal conductivity,thermal conductivity,
electrical c. 1060,1170
2148
975
1458
13382322
528, (2273), 2319, 2414, 2646, 2960A1203- 328, 549A1203-Fe thermite reaction constitution 625, 773
-Mo; BeO-Mo,-Nb e1ectrica1 + thermal conductivitystrength 2151
-Mo thermal conductivity 2500-Ti 496
composites 2613data evaluation 2563elastic constants testingjoining patent 1912, 2464Mgü-Ag,-Si,-W; MoSi2 ••• ; NbC••• ; TaC ••• ; Th02••• ; TiC••• ;
ZrC... 871-Cr structura1 material-Ni wetting 1026-W; SiO-Al 590
strength model 2888thermal conductivity 2517TiC- 1194TiC-Co,-Ni; WC-CoUC-Cr,-Mo,-Nb,-W
-U 1521U02- 1103U02-Cr,-Mo,-Nb,-ss pressing (hot)
-Mo 1267-Mo,-Re,-ss,-W; UN-W
thermal expansionthermal expansion
- 233 -
thermal expansion U02 -Mo,-ss 2551-ss fuel elements 1203-ss; Pu02-ss compatibi1ity 2902-Zr 163
U308-A1 999WC- 1339WC-Co microstructure 1305Zr02-Ti strength therrral conductivity 1763
thermal expansion /stresses/ 2336
therma1-shock strength ~ strength (thermal-shock)
thermionic emitter 222, 1172, 1272, (2065), 2222, 2308, 2525, (2742), 2905,thermionic emitter bibliography 2506 2955
compatibility 1390joining 1285, 1310, 1351LaB6-W 1790La203-W 2017oxide-W rare earths 2016, 2251survey 2781TaC-Cs 2838Th02-Mo 2134, 2887
-W 365UC-Mo 1831
-Mo,-Nb,-Re,-W compatibiIity 1202, 1426-Mo,-W compatibility 1672, 2171-Re; U02-Mo,-W 1525-U 1033-W; U02-W irradiation strength 1591
U02- 1650U02-Mo 1430, 1886, 2131, 2149, 2219, 2236, 2308, 2525,U02-Mo,-W; UC-Re 1525 2619
-W 1421, 1423, 1486, 1986-W compatibility 1491
thermite reaction 149, 1020, 1041thermite reaction A1203-Cr 634, 1410
-Cr patent 219, 310, 362, 426-Cr,-Cu,-Fe pressing (hot) 1627-Fe 2302-Fe constitution thermal expansion-Zr 912
patent 301, 302U308-Al 1178, 1281, 1435U308-Mg,-Zr 1676
thermocouple ~ thermoelement
thermodynamic stability ~ constitution
thermoelectric force ~~ thermoelement
thermoelectric force boride-Cu carbide-Cu 766
thermoelement ~~ thermoelectric force
thermoelement 223, 250, 1571, 2378thermoelement A1203-ss; MgO-ss 2377
coating 1885oxide- 682, 977patent 840
625, 773
- 234 -
thermophysical properties ~ compatibilityconstitution
2827
compatibility 117,201
1530
2856
1365
2636
thick-film resistor ~ resistor (thick-film)thin-film resistor ~ resistor (thin-film)
ThN- ; Th02- data 2756Th02- electronic componentTh02- ; Th1~- data 2756Th02- ; U02- bonding 1287Th02-Ag,-Si,-W; TiC••• ; ZrC••• ; ~€Ü••• ; MoSi2 ••• ; NbC••• ; TaC... thermal exp. 871
-Au,-Pt; A1203-Au,-Ft electrical conductivity strength (tensile) 2654-Al 2445-Al constitution 1238-Be,-Mo,-Ni,-Si,-Zr; Ti02 ••• ; Zr02 ••• ; A1203••• ; MgO•••-Bi casting (slip c.) 969-Bi; U02-Bi compatibility 1081
; PuO-Bi patent 1061-Co,-Hf.-Mo,-Re.-Ta,-W,-Zr 1905-Cr coated particles 2343
strength 2554-Cr,-Ni; Zr02-Cr,-Mo-Cr; SiO-Cr 280-Cr; WC-Co; Zr02-Cr; A1203-Ni coatings 1654-Mo coated particles pressing microstructure 2879
fuel elements, fabrication +Pu02-Pt compatibilityfuel elements, fabrication sintering 2848strength 96, 2897thermioninic emitter 2134, 2887
-Mo,-W; Zr02 ••• ; Hf02... coating (flame spraying) patent 2228-Nb,-Ta.-W; Y203 ••• ; A1203 ••• ; BeO••• ; ~~O... compatibi1ity 1803-Re,-W; Zr02 ••• ; TaB••• ; HfC ••• ; TaC ••• ; ZrC••• ; Ce02... compatibility-Ni; Zr02-Mo 2682 wetting 2267-Th constitution 1936, 2380
patent 593-w 2036-w electronic component 944
pressing mechanical propertiesthermionic emitter 365
-W; BeO-W; U02-A1,-Cu,-Mo.-Nb.-Ni,-ss microstructure-Zr sintering compatibility patent 524
TiB-GOf TiC-Ni,-Si microstructure 394-Co,-Fe.-Ni; CrB... 585-Ti; Ti5Si3-Ti casting /unidirectional solidification/ 2852
TiB2-~e.-Co.-Cr.-Fe,-Ni,-Zr; TiN••• ; ZrB2••• ; ZrC••• ; A1203 ••• ; Cr203••• ;MgO••• ; SiN... 134
-Ni; TiC-Ni microstruct~e (etching) 657
TiC- 115, 189. 254, 263, 267. 291, 296, 300, 372, 316? 402, 403, 463, 470.501, (507). 511. (558). 611, 961, 1012, 1038, 1224
TiC- casting 240coating 2832constitution 127, 144, 382hardness 1252infiltration 100, 147, 445, 519pressing (explosion) 1D21sintering 717, 718, 719. 720, 1001, 2252sint8ring microstructure strength 987strength 490
- 235 -
322
TiC- strength (creep) 466strength (fracture) 2313structura1 material strengthtHrmal expansion 1194turbine material 200, 323
TiC- A1203-Cr turbine materialboride- survey 287oxide- electronic componentWC- compatibi1ity (corrosion)TiC-Ag,-Cu; A1N-Ag,-Cu wetting
TiC-Ag,-Si,-W; ZrC ••• ; MgO••• ; MoSi2••• ;
493
2389452762
NbC••• ; TaC••• ; Th02•••expansion 871
thermal
1823
60, 98bond.ing
cutting material
190
905
42, 101
wetting
1338
158
485920
128, 246turbine material
217
-Al bonding 1769patent 2381strength 187
TiC-Al,-Au,-Be,-Co,-Cr,-Fe.-Mg,-Mn,-Ni,-Pb,-Si,-Ti,-V-A1,-Co,-Cr,-Fe,-Ni strength 162-Cb,-Cr,-Mo,-V; VC ••• ; ZrC••• ; HfC•••-Co 46, (78), 256-Co constitution
pressing 721pressing (hot) 1013testing (316), 505
-Co,-Cr,-Fe,-Ni (108)-Co,-Cr,-Ni bonding 119-Co,-Fe constitution 127,-Co,-Fe,-Ni; A1203-Al,-Co,-Fe-Co,-Fe,-Ni compatibility-Co,-Mo,-Nb,-Ta,-W; BC •••-Co,-Mo,-Ni 1235, 1236-Co,~Mo,~W 39-Co,-Ni 84, 288, 842-Co,-Ni machining 587
sintering 324, 417,718, 719turbine material 150, 210, 293wetting 1314
-Co,-Ni; WC-Co thermal expansion-Co; WC-Co 559
WC-Co data evaluation 24)2machining wear 2749pressing (extrusion) 2521, 2522sintering microstructure 845, 1982
-Co,-Ni; WC-Co,-Mo compatibility 485-Cr chemical analysis 892-Cr,-Fe,-Mn strength turbine material
e1ectrode patent 198-Cr,-Mo,-Ni microstructure 1175-Cr,-Ni constitutiön 469-Cu; WC-Cu wetting 1350-Fe 245, 253, 1978-Fe patent 207
sintering 1696-Fe,-Ni; A1203 ••• ; B4C-Fe-Mo 1924, 1956, 2199-Mo constitution 2809
wear 2287-Mo,-Nb,-Ta constitution 2768-Mo,-Ni; A1203-Cr,-Mo bearing joining-Mo,-Ni compatibility 2440-Mo,-Ti constitution 2636
- 236 -
TiC-Ni 131, 218, 259. (381), 764-Ni chemical analysis 1142
chemical properties 1223coating (electroplating) 674constitution 331, 829cutting material elastic constants hardness 1856elastic constants 1133friction material compatibility (corrosion) 941infiltration 71, 865,lOJ.nJ.ng 265mechanical properties 295microstructure bonding 1183
mechanical properties 658, 809strength 475
microstructure (stresses) 843, 881microstructure (stresses)/x-ray/ 753pressing (extrusion) 1374pressing (hot) 882sintering 720, 856, 1014, 1115, 1135strength 385, 460, 461, 613, 617, 619strength (impact) testing 521thermal expansion, mesurement 717turbine material 226, 604, 825
TiC-Ni; A1203-Cr strength 630SiC-Ni 918VC-Co,-Ni; TaC-Co,-Ni sintering (liquid phase) 2859WC-Co,-Cu strength microstructure 888
; WC-Ni 306TiC-Ki,-Si; TiB-Co microstructure 394
-Pb; AIN-Pb wetting 2761-Si; Ti02-Si turbine material 186-S8 1065, 2467, 2468-ss infiltration (1624), 2248
infiltration microstructure 1776joining machining 564rocket material 2350strength 948
-ss; VC-ss; NbC-ss; TaC-ss 828-Ti; WC-W; ZrC-Zr; MoC-Mo; NbC-Nb; TaC-Ta coating 2707-W constitution 312-W; WC-Ti 30
TiN- constitution 382TiN-Be,-Co,-Cr,-Fe,-Ni,~Zr; ZrB2 ••• ; ZrC••• ; Zr02 ••• ; A1203••• ; Cr203 ••• ;
MgO ••• ; SiN••• ; TiB2... 134-Co,=Fe,-Mo,-Ni,-W wompatibility 1671-Cr 135
Ti02-Be,-Fe,-Ni,-Si; Zr02 ••• ; A1203 ••• ; Be2C••• ; BeO••• ; MgO... 105-Be,-Mo,-Ni,-Si,-Zr; Zr02 ••• ; A1203 ••• ; MgO ••• ; Th02... compatibility 117,-Cr patent 693, 841 201-Cr pressing patent 570, 574-Cr; A1203-Cr; Nb205-Cr; Ta205-Cr patent 554, 555-Nb,-Ta,-Ti,-V; AIN••• ; Si3N4... compatibi1ity 2889-Si; TiC-Si turbine material 186-W; Y203-W joining 2174
Ti5Si3-Ti; TiB-Ti casting /unidirectional so1idification/ 2852Tm203-ss,-W compatibility 2575
-W; Cm203-Mo,-Nb,-Ta,-V,-W,-Zr compatibi1ity 2701
tools ~ cutting materialrnachining
- 237 -
torsion ~ strength
transition metals bonding 1881compatibility 2771UC- UC2-; UN- constitution 1293UN- constitution 2453
transport properties ~ electrical conductivitythermal conductivity
turbine material
turbine material
turbine material
58, 59, (121), 138, 141, 154, 171, 179, 203, 209, 241, 262,309, 332, 340, 349, 358, 370, 420, 487, 516, 529, (536),596, 656, 659, 694, 736, 782, 818, 819, 893, 898, 981, 990,1138, 1699, 1762, 1784, (1785), 2712
A1203-Cr 211, 550-Cr; TiC- 322-Fe 52
BC-Co,-Mo,-Nb,-Ta,-W; TiC-Co,-Mo,-Nb,-Ta,-W 190patent 515testing 255, 510TiC- 200, 403TiC-Co strength 42, 101
-Co,-Mo,-Nb,-Ta,-W; BC-Co,-Mo,-Nb,-Ta,-W 190TiC-Co,-Ni 150, 210, 293
-Co,-Ni; WC... joining 774-Ni 226, 604, 825-Si; Ti02-Si 186
Ti02-Si; TiC-Si 186WC-Co,-Ni; TiC... joining 774
UAs-U constitution 2156
UB4-Cr,-Fe,-Nb,-Ni; UC2 ••• ; U308 ••• compatibility 812
Pu02••• ;
1293
1468
2322
UC- 1487, 1658UC- bonding 1531
constitution 2234fuel elements compatibilitypressing (extrusion) 439sintering 677
UC- UC2-; UN- transition metals constitutionUC- UN- irradiation 859UC- UN-; U02- fuel elementsUC~ ; U02- fuel elements 749UC-Al,-Be,-Cr,-Fe,-Mo,-Nb,-Ni,-ss,-Ta,-Ti,-V,-W,-Zr; UN••• ; U02... compatibility
-Al,-Co,-Fe,-U; U02-Al,-Mo,-Nb,-ss 1261 1811-Al,-Cr,-Fe,-Mo,-Nb,-Ni,-ss,-Th,-Ti,-V,-Zr; UC2... compatibility 1205-Al,-Cr,-Fe,-Mo,-Nb,-Ni,-Ti,-Zr; U02 ••• ; UC... compatibility 2434-Al; UN-Al; U02-Al; U308-Al pressing fuel elements rol1ing irradiation-Al; UN-Al; U02-Al fuel elements irradiation 1187 1483-Al; U02-Al; U308-Al compatibility fuel elements .irradiation 1649-Au,-Ni; U02-Au,-Ni ccated particles 2431-Be,-Cr,-Fe,-Mo,-Nb,-ss,-Ta,-W; UN••• ; U02 ••• ; US ••• ; PUC••• ; FuN ••• ;
PUS... patent 1775-Be,-Cr,-Fe,-Mo,-ss,-Ta,-W,-Zr 2233-Cr,-Fe,-Ni constitution 1048-Cs,-1i,-U; UN••• ; U02... compatibility microstructure 1686-Fe 1532
- 238 -
2543
1591
1202
1775
patent
903
812
2932
2843
2453
2931fabrication
1343
2779
2570
1040eompatibility
1995
2060
(2419)
constitution
UC-Fe; UN-Fe eonstitution 2866-Mo,-lfu,-Ti,-V,-W thermionie emitter eompatibility-Mo,-Nb,-Ti,-V,-Zr; US-Al,-Zr fuel elements 902-Mo thermionie emitter 1831-Mo; UN-Mo; U02-Mo eleetrical + thermal eonduetivity strength irradiation-Mo; U02-Mo fuel elements 1382 1626-Mo,-ss compatibility 2843
,-W eompatibility 2196-Na eompatibility mierostrueture-Nb eoated particles fuel elements,-Nb,-Si,-Ti,-Zr fuel elements review-Nb thermionie emitter 1033-Nb,-U; UN-Al,-Mo,-Nb,-Zr; U02... 716-Pd,-Rh,-Ru; UN-Mo,-ss,-W constitution-Re; U02-Mo,-W thermionic emitter 1525-Ru; PuC-Ru ehemieal analysis 2127-ss eompatibility 1669, 1821-ss,-V constitution 2660-ss; PuC-ss eompatibility-ss; UN-ss; U02-Al,-ss 722-Ta eompatibility 2737-U fuel elements 1400, 1570
irradiation 1273, 1634microstrueture wettingpatent 1030, 1836sintering 1034, 1549
-U sintering mierostrueturethermal eonductivity 1521wetting 2870
-V; UN-V eonstitution-w constitution 2912
fuel elements 2828thermal conductivity 2801thermionie emitter 1898
-W; PuC-W eonstitution 2858-W; U02-W microstrueture eoated particles 1935
thermionic emitter irradiation strengthUC2-Al; U308-Al 1325
-Cr,-Fe; UN-Fe eonstitution-Cr,-Fe,-Nb,-Ni; U308••• ; UB4•••-U sintering 2490
UC14-Al; U02-Al ehemieal analysisUN- 1347UN- transition metalsUN- UC- 1207UN- ; UC- irradiation 859UN-Al,-Cr,-Fe,-Mo,-l~,-Ni,-ss,-Th,-Ti,-V,-W,-Zr compatibility 1447, 1811
-Al,-Cr,-Fe,-Mo,-Nb,-Ni,-Ti,-V,-Zr; U02••• ; UC... eompatibility 2434-Al,-Cr,-Fe,-Zr; U02~.. eompatibility 1602-Al,-Cu,-In,-Mo,-ss,-V thermal conductivity-Al,-Mo,-Nb,-V fuel elements 901-Al,-Mo,-Nb,-Zr; U02-Al,-Mo,-Nb; UC-Nb,~U 716-Al,-Mo pressing fuel elements eompatibility-A1,-Ni,-ss,-Zr 1499-Al; U02-Al; UC-Al fuel elements irradiation 1187-Al; U02-Al; U308-Al; ue-Al pressing fuel elements rolling irra~1~~ion-Be,-Cr,-Fe,-Mo,-Nb,-Ta,-ss,-W; U02••• ; US ••• ; PUC ••• ; FuN••• ; PUS ••• ;
UC... patent-Bi electrical + thermal conductivity 1145
- 239 -
1626irradiation
2403
(1783)
1269
2167
2542
testing
fuel elements, fabricationthermal conductivity 946
mierostrueture 1686
2843
2280
patent
2565
13481443
2435
1153
constants
2869890
722e1astic
2926
1047(mieroprobe)
239, 252973, 1387, 1546
fuel elements irradiation 913, 1428irradiation 1086, 1094, 1149, 1265
fabrieation (745), 873, 1036, 1933, 2402,351
compatibility
-ZrU02U02-
TIN-Cr eonstitution-Cr patent 1377-Cr,-Fe,-Mo,-Nb,-Ta,-Ti,-\v,-Zr; lJ02-Cr,-Mo,-Nb
-Cs,-Li,-U; U02••• ; UC... eompatibility-Cu; U02-Cu microstrueture (2495)-Fe,-U eonstitution 1308, 2866-Fe; UC2-Cr,-Fe constit~tion 1040-Mo,-ss,-W; UC-Pd,-Rh,-Ru eonstitution-Mo; U02-Mo fuel elements 1397-Mo; U02-Mo; UC-Mo electrical + thermal conduetivity strength-Mo; U02-W; US-W pressing eompatibility irradiation 1353-Mo,-W eompatibility 2507, 2913
pressing +eoated particles pressing-Mo,-W; U02-Mo,-W mechanical properties 2179
U02-W; US-W eoated partieles pressing-Nb,-U 1119-Ni,-ss,-V; U02 •••-ss 480-ss compatibility
fuel elements-ss; U02-Al,-ss; UC-ss-ss; U02-Mo strength-U 1195, 1221-V; UC-V eonstitution (2419)-W thermal expansion 1458-W; U02-Cu,-W; Zr02-ss mierostrueture-W; U02-W irradiation 2691
pressing (explosion)eompatibility 18741294, 1684
bibliography 949coated particles (886), 1117, 1231compatibility 1056, 1245fuel elements 820, 1051, 1163, 1278, 2128, 2483fuel elements patent 2831irradiation 2709irradiation (high temperature)
U02- mierostructure (autoradiography)pressing strength 1154pressing (extrusion) 1089, 1494pressing (hot) 769, 1089, 1292thermal expansion 1103thermionic emitter 1650
U02, Am02, Cm02, Np02 eoatings 2333U02- Pu02- fuel elements, fabricationU02- Th02- bonding 1287U02- UC- fuel elements 749U02- U308- eonstitution 1840U02-Al 639, 833, 2571U02-Al ehemical analysis
chemieal analysiscoated partieleseompatibilitycompatibilityfuel elementsfuel. elements,irradiationpatent 1547
- 240 -
2559
1811compati;bility
2434
2458
824
1686
835
1530
electrical + ther~al
physical properties
1106
1187, 1483
2285
microstructure
952
716967
irradiation2779
960
679fabrication 806, 11821323, 1649, 1968
16031535
compatibility
-Cr,-Mo,-l'Tb,-ss
-Be-Be
1521compatiblity 1561fuel elements 537
-Bi casting (slip c.) patentcompatibility 1081wetting 846, 1053
-Bi; Th02-Bi compatibility 1081-Bi; Th02-Bi; PuO-Bi patent 1061-Cb fuel elements 1983, (2208)-Cb,-Nb patent 2428-Cr coated particles pressing (hot isostatic)-Cr; A1203-Cr coated particles 2309-Cr,-Cu,-Fe,-Mo,-Ni fuel elements, fabrication patent-Cr,-Fe,-W 1425-Cr,-Mo coated particles pressing (hot isostatic)
conductivity strength irradiation 2558-Cr.-Mo.-Nb pressing electri~al + thermal conductivity-Cr,-Mo coated particles electrical conductivity 2792
compatibility 2427-Cr,-Mo,-Nb; UN-Cr,-Fe,-Mo,-Nb,-Ta,-Ti,-W,-Zr fuel elements, fabrication
thermal conductivity 946pressing (hot) thermal expansion electrical + thermalconductivity fuel elements 1060, 1170
-Cr,-Mo,-V coated particles pressing (hot isostatic) (2616)-Cr,-Nb coated particles fuel elements, fabrication 1229-Cr,-Ni 2087-Cr,-Ni compatibility
irradiation-Cs,-Li,-U; UC ••• ; UN•••-Cu 1355-Cu bonding 1522
constitution 837physical properties microstructure (distribution)strength (2068)thermal conductivity 457
-Cu; UN-Cu microstructure 2495-Cu; U308-Al elastic constants strength-Cu,-Mo fuel elements (2546), (2547)
U02-Al pressing irradiation hardnesspressil~ (extrusion) 1101thermal ccnductivity 2043, 2058
-Al,-Be compatibility 950-Al,-Be,-Cr,-Fe,-Mo,-Nb,-Ni,-ss,-Ta,-Ti,-V,-W,-Zr; UC••• ; UN•••-Al,-Cr,-Fe,-Mo,-Nb,-Ni,-Ti,-V,-Zr; UC••• ; UN... compatibility-Al,-Cr,-Fe,-Zr; UN... compatibility 1602-Al,-Cr,-Nb coated particles irradiation 1346-Al,-Cu,-Mo,-Nb,-Ni,-ss; BeO-W; Th02-W microstructure-Al,-Mo,-Nb,-ss; UC-Al,-Co,-Fe,-U 1261-Al,-Mo,-Nb; UC-Nb,-U; UN-Al,-Mo,-Nb,-Zr-Al,-Mo,-ss,-Zr; UC... fuel elements-Al,-Mo,-Zr 1279-Al,-ss sintering fuel elements, fabrication-Al,-ss; UC-ss; UN-ss 722-Al; UC-Al; UN-Al fuel elements-Al; UC14-Al chemical analysis-Al; UN-Mo fuel elements 1397-Al; U308-Al 635-Al; U308-Al compatibility
fuel elements,irradiation
- 241 -
1062
(2164)
2422
2398, 2399, 2400
U58
2560
1852
1919
932
2280
1562
1525
942irradiation2237, 2397
U02-Cu,-Mo; Zr02-ss; UN-W microstrueture-Fe ehemieal properties 1678
fuel elements bonding 1469irradiation 933pressing (extrusion) 792
-Fe,-Ni,-W thermal eonduetivity mierostrueture /texture/-Gd; Gd203-Mo eompatibility 2568-Mg 1714-Mg fuel elements irradiation 1592-~~,-Mo,-~o thermal eonductivity 899-Mo 591, 675, (1126), (1127), 1420, 1479, 1480, (2354), 2447, 2812-Mo ehemieal analysis (microprobe) 2621
ehemieal proeessing 1932eoated partieles 1185, 2098, 2310eoated partieles pressing (hot isostatie)
sintering 1326eompatibility 111, 954, 1673, 1742eompatibility (eorrosion) hardnesseonstitution 1479elastie eonstants 1954eleetrieal eonduetivity mierostruetureeleetrieal + thermal conduetivity 1307eleetrieal+ thermal conduetivity elastie eonstants maehinlng 1480fuel elements mierostrueture 1206, 2312fuel elements, fabriea~ion 1553, 1662, 2042irradiation 2070, 2294, 2893mierostrueture (distribution)pressing sintering 1479pressing (hot) 1112nressing (hot isostatie) thermal eonduetivity strengthstrength (ereep) 237, (2677)thermal eonduetivity 994thermionie emitter 1430, 1886, 2131, 2149, 2171, 2219, 2308, 2525, 2619thermal expansion 1267, 1958
-Mo,-Nb 2472, 2956-Mo,-Nb,-Re,-Ta,-W eompatibility
eompatibility-Mo ,-Nb ,-Ta compatibility 2180,-Mo,-1Th,~W eompatibility 2237-Mo,-Re,-ss,-W compatibility thermal expansion-Mo ,-Re ,-W eompatibility 1426, 1651
thermionie emitter 14~6, 1430, 1672, 2171-Mo,-Rh,-Ta,-W oompatibility 2345-Mo,-ss eompatibility /simulated fission produets/ 2452
eoated partieles thermal eonduetivity irradiation-Mo,-V,-Cr coated partieles pressing (hot isostatie) (2616)-Mo,-W eleetrical eonduetivity 1752
fuel elements 1427fuel elements irradiation eompatibilityfuel elements, f~brieation patent 1371pressing 1557, 2091, 2921pressing (hot) eoated partielesthermal conduetivity 1500, 1987
-Mo,-Zr mierostrueture (eleetron mieroseope) 2658-Mo; UC-Mo fuel elements 1382 1626-Mo; UC-Mo; UN-Mo eleetrieal + thermal. conduetivity strength i~diation
-Mo; UN-ss strength electrieal eonductivity testing (1785)-Mo; us-w 1299-Mo,-W; UC-Re thermionie emitter
- 242 -
1647
2657
1918
1010
2259
isostatic) (2616)
(2394), 2620microstructure
2878
2179
16931613, (1848)
2861
1935
1599
U02-Mo,-W; UN-Mo,-W mechanical properties-Na compatibility 1594-Na,-ss,-U; US-U constitution-Nb coated particles 1301
compatibility 1513-Nb,-Ta coated particles fuel elements, fabrication
compatibility 1917-Nb,-V compatibility 1356-Ni fuel elements 1177, 1652
fuel elements, fabrication patent-Ni,-ss,-V; UN... compatibility 2435-Pb shielding 1596
wetting 813-Pt wetting 940-Pu compatibility 1395-Si,-ss; PU02... compatibility 1381-ss 588, 1396, 1438, 1451, 1601, 1663, 2138, 2512-ss chemical analysis 985
chemical processing 1485, 2028compatibility 1701, (2505), 2848electrical conductivity 756electrical + thermal conductivity strength 1433fuel elements irradiation 1360, 1578, 1589, 1642, 1687, 1700, 1989,
2215, 2258, 2286irradiation testing 2390mechanical properties 1409patent 1456thermal expansion 1203
fuel elements, fabrication 520, 756, 770, 1057, 1120, 1121, 1122,1213, 1217, 1331, 1357, 1366, 1452,1455, 1552, 1637, 1707, 1868
fuel elements /specifications/ 546, 672, 673, 1577irradiation 1070, 1090, 1391, 1808mechanical properties (1136)pressing (extrusion) fuel elements, fabrication
-ss; A1203-Cr; B4C-Al irradiation 502SiC-Si 965
A1203-ss patent 1590+review 700
-ss,-Ni; UN... compatibility 2435-ss; PuC-ss; Pu02-ss chemical analysis
Pu02-ss fuel elements irradiationfuel elements, fabricationpressing sintering 2862strength elastic constants 2125thermal expansion compatibility 2902
-sS; Pu02-ss; Pu203-ss fuel elements, fabrication microstructure-ss; Si02-U irradiation 455-U constitution 1291, 1593, 1689, 1702
constitution sintering 1626sintering 2615
-U; CaO-U; La203-U; SrO-U compatibility /crucible/-v coated particles 2774-V,-Cr,-Mo coated particles pressing (hot-W (1419), 1422, 1510, 1748, 2204, 2305-W casting /Ul1idirectional solidification/
casting /unidirectional solidification/chemical analysis /stoichiometry/ 2523coated particles 753
microstructure
- 243 -
1649
1483
1353
1591
2170
1482806, 1182
5451631840U308- ;
U308-AlU308-A1
U02-W coated partiales strength (creep,fracture)therm&l conductivity 2220
fuel elements 1368, 1976, 218~ 2596fuel elements irradiation testing 2375
pressing (extrusion) 1462pressing (hot isostatic) 2315
irradiation 1199, 1614, 2351, 2416, 2465, 2491, 2504, 2765, 2949joining 2356, 2489ro11ing 1709sintering 1211, 1280, 1364, 1667, 2137strength 1539, 1603strength testing 1498stresses 1567thermal conductivity 1472, 1758, 2053, 2503thermionic emitter 1421, 1423, 1486, 1986thermionic emitter compatibility 1491
-W; UC-W coated particles microstructure 1935thermionic emitter irradiation strength
-W; UN-W irradiation 2691pressing (explosion) 1153
-W; U308-Al thermal conductivity 2528-W; US-W; TIN-Mo,-W coated particles pressing 1269
UN-W pressing compatibility irradiation-Zr 320=Zr compatibility 391, 453, 601, 618
constitution 409, 771fuel elements 2830irradiation 727microstructure 303pressing (extrusion)thermal expansion
U02- constitution1180, 2282, 2283
chemical analysis (microprobe) 2565compatibility 1144, 1317, 1318, 1473, 1534, 2357, 2656, 2784fue1 elements 193, 807, 1300, 1301, 1441, 1574, 2357, 2721, 2957fue1 elements irradiation 441, 1718, 2571, 2710, 2715, 2719, 2752
mechanica1 properties 1415mechanica1 properties jdeformationj 2716, 2717
fuel elements, fabrication 728, 808, 989, 1358, 1488, 1725, 1726,1744, 1766, 1914, 2034, 2135, 2173,2250, 2358, 2504, 2624, 2625, 2718,2719, 2720, 2121, 2122
fue1 elements jspecificationsj 1~18
irradiation 737, 1127, 1322, 1385, 1481, 1543, 2565pressing patent 1129pressing (extrusion) 989, (1290)strength 1181, 1182, 1516,strength wetting 2282thermal expansion 999thermite reaction 1179, 1281, 1435
U308-A1; UC-A1; U02-A1 compatibility fue1 elements irradiation-Nb compatibi1ity 1325
U02-Al 635U02-A1 compatibi1ity 679
compatibi1ity irradiationfue1 elements, fabricationirradiation 1323, 1968pressing fue1 elements ro11ing irradiation
- 244 -
U308-Al; U02-Cu strength elastic constants 2285U308-Al; U02-W thermal conductivity 2528U308-Al,-Mg bonding 74
-Cr,-Fe,-Nb,-Ni; UB4••• ; UC2... compatibility 812-Mg,-Zn thermite reaction 1676
UP-U constitution 1265UP2-U; U3P4-U; US2-U sintering 2411US-,Al,-Zr; UC-Mo,-Nb,-Ti,-V,-Zr fuel elements 902
-Be,-Cr,-Fe,-Mo,-Nb,-Ta,-ss,-W; PUC ••• ; FuN••• ; Pu02••• ; ~••• ; UC ••• ;UN••• ; U02... patent 1775
-Mo,-Nb,-Ta,-V compatibility 1148-U; U02-Na,-ss,-U constitution 1599-W; UN-Mo; U02-W pressing compatibility irradiation 1355-W; UN-Mo,-W; U02-W coated particles pressing 1269-W; UN-W; U02-W pressing comapatib1ity irradiation 1935-W; U02-Mo 1299
US2-U; UP2-U; U3P4-U sintering 2411
vacuum seals 23, 380, 748, 1844vacuum seals A1203- 2532
bibliography 2578review 400sputtering 2767
vapor depositing ~ coated particlescoating
VC-Cb,-Cr,-Mo,-V; ZrC••• ; HfC ••• ; TiC••• ; wetting cutting material 1823-Co,-Cr,-Fe,-Ni; WB••• ; ZrB••• ; CrB2... infiltration patent 448-Co,-Ni; TaC••• ; TiC-Ni sintering (liquid phase) 2859-Co; WC-Co; liDC-Co; TaC-Co; TiC-Co streng~h 577-Ni microstructure patent 208-ss; NbC-ss; TaC-ss; TiC-ss 828
VO-V constitution 2810
448patent
2340
944
1656
WB-Co ,-Fe constitution 2475-Ni; W2B-Ni; W2B5-Ni sintering wetting 2694
WB~-Co,-Cr,-Fe,-Ni; ZrB••• ; C~B2 ••• ; VB... infiltration-Co,-Fe,-Ni; MoB2 ••• ; NbB2 ••• ; TaB2... patent 204
w: coatings 2352wc- 124, 1517, 2593WC- thermal expansion 1339WC- ; TiC- compatibility (corrosion)WC-Ag; CdO-Ag contact 2099WC-Co 5, 8, 13, 14, 17, 35, 44, 47, 256, 271, 393, 401, 614, 633, 765, 860,
959, 1003, 1073, 1079, 1140, 1141, 1230, 1342, 1470, 1582, 1866, 1895,1896, 1897, 1926, 2077, 2335, 2392, 2769, 2770, 2882
bibliography 2644bonding 116, 146, 375, 464, 868, 1723, 2920bonding chemical properties 1+01casting physical properties microstructurecasting (slip c.) 1716, 1951coatings 2352coatings bearing wearcompatibility 1465, 2374
- 245 -
WC-Cocompatibility (corrosion) 781, 852, 1134constitution 234, 271, 289, 401, 449, 1579, 1822, 1863, 1985, 2695constitution microstructure 57constitution (solubility) 9, 271, 401, 449, 1449, 1573, (1804), 2112constitution (solubility) mechanical properties 1979cutting material 1097, 1566, 2300, 2301,cutting material patent 2723
wear 2539, 2540, 2946elastic constants 1283, 2379, 2630, 2934elastic constants hardness 2021
strength 157, 988electrical conductivity 1254finishing (electrolytic) 908friction material wear 2331hardness microstructure /cracks/ 2056, 2271
strength 12, 860, 2609strength wear 584wear 6
harfrness jtemperature/ 1232, 2023joining 2373machining 592, 2035, 2567, 2690magnetic properties 1016magnetic properties microstructure 26mechanical properties 294, 1457, 1698, 1703, 1814, 2206, 2412microstructure 11, 137, 289, 443, 697, 1071, 1453, 1800, 1801, (1837),
2266, 2424, 2549, (2664), 2945microstructure electrical conductivity 1201
machining 2421model 1845strength 374, 387, 795, 860, 1184, 1335, 1800, 1829,
1862, 2218, 2395, 2623strength hardness 2438
microstructure (distribution) 663microstructure (electron microscope) 2261, (2266), 2288, 2450, 2666,
2668, 2669, 2670, 2837microstructure !electron microscope) strength (fracture) 2442microstructure particles size) 2391microstructure polishing) 1503microstructure stresses) 696, 763, 1161, (1493), 2666microstructure /grain growth/ 2401mil1ing 1084, 2010milling mixing 2892patent 77, 81, 125, 371, 581, 2049, 2584, 2585, 2675, 2724powder metallurgy 1524pressing 1495, (1645), 1841, 2320, 2851pressing microstructure (distribution) 2292
sintering 1797pressing (hot) 976, 1306pressing /deformation/ 2318review 2553sintering 15, 16, 19, 136, 277, 976, 1209, 1359, 2024, 2025, 2293,
2474, 2702, 2705, 2875specific heat 811strength 484, 594, 775, 1208, 1436, 1504, 1768, 1770, 1787, 1920,
1,69, 2166, 2188, 2225, (2387), 2538, 2643, (2730), 2791,strength statistics 1639 2873
wear machining 2688strength, theory 2061, 2272, 2890strength (bending) 2224, (2388), 2443, 2622
- 246 -
WC-Co strength (bending) compatibility 1622strength compressive) 1253, 2550, 2688, 2708strnegth compressive) microstructure 1406strength fatigue) 735, 2270strength fracture) microstructure 2147, 2264, 2592,2667, 2880strength tensile) 606strength thermal shock) 1902strength torsion)/temperature/ 1631survey 86testing /ultrasound/ 957thermal conductivity 2952thermal expansion microstructure 1305wear 955
WC-Co; MoC-Co patent 77; NbC-Co; TaC-Co; TiC-Co strength 577
WC-Co,-Cu bonding mechanical properties 1004-Co,-Cu; TiC-Ni strength microstructure 888-Co,-Fe constitution (solubility) mechanical properties 2112, 2758-Co,-Fe,-Ni patent 491-Co,-Mo; TiC-Co,-Fe,-Ni compatibility 485-Co,-Ni constitution 1129-Co,-Ni; CbC-Co,-Ni; TaC-Co,-Ni sintering 63-Co,-Ni; TiC-Co,-Ni joining 774-Co; TiC-Co 559-Co; TiC-Co data evaluation 2432
machining wear 2749pressing (extrusion) 2521, 2522sintering microstructure 845
-Co; TiC-Co,-Ni thermal expansion 1338-C11 coatings (electrodepositing) 1690
friction material patent 160sintering (liquid phase) 2904
-Cu; TiC-Cu wetting 1350-Fe constitution 2239, 2758, 2901
patent 206-Fe,-Ni 1248-Ni 739-Ni; TiC-Ni 306-Pb friction material 45-ss; Cr2C3-ss 213-Ti constitution 312-Ti; TiC-W 30-W; ZrC-Zr; MoC-Mo; NbC-Nb; TaC-Ta; TiC-Ti coo.ting 2101
wear ~~ friction materialmachining
wear 1188, 1228, 1414, 1923, 2175wear A1203-Cr friction material 1055
bearing compatibility /Na/ 2857carbide-ss 1044cemented carbides 1984, 2198cemented carbides compatibility (corrosion) 2141coatings 1327, 2145, 2146, (2336)cutting material 2449friction material 1164, 2202, 2212machining 1974,
machining WC-Co 2690WC-Co; TiC-Co 2149
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wear microstructure /surface/ 2203patent 305SiO-Cr resistor (thin-film) 2155TiC-Mo 2287WC-Co 955WC-Co coating bearing 1656
cutting material 2539, 2540, 2946friction m&terial 2331strength hardness 584, 2747
welding ~ joining
~~ bonding
1823
1823
1823
1823
565
750, 839, 909,1855,2652, 2128,
/2760, 2916
1440
2645
cutting material
cutting material
cutting material
796
1026
889
1995, 2870
168, 216, 285, 297, 298, 299, 397, 482, 569, 609,1109, (1110), 1118, 1143, 1197, 1312, 1340, 1585,
AIN-Ag,-Cu; TiC-Ag,-Cu 2762-Pb; TiC-Pb 2761
A1203- ; BeO- 1615A1203-Ag,-Au,-Co,-Cu,-Fe,-Ni,-Sn; B4C••• ; CaO ••• ; Si02••• ; Zr02 ••• 1911
-Al 666, 2393-Co,-Cu,-Ni,-Sn; SiC••• ; Si02••• ; Zr02•••-Co,-Ni; carbide-Co,-Ni 1251-Cu,-Sn; Cr203... electrical conductivity-Fe bonding 743, 1721-1i 935-Mo,-W 2759-Ni (2661)-Sn; MoSi3-Sn; SiC-Sn-W 1636
BC-Ag,-Al,-Sn,~Zn sintering (liquid phase)bonding compatibility (2334)boride- ; oxide~ 830carbide- 1708, 2303carbide- ; oxide- 388, 488, 1137compatibility (2046)HfC-Cb,-Cr,-Mo,-V; TiC••• ; VC ••• ; ZrC•••infiltration 2069, 2729MgO-Ni thermal expansionmicrostructure 1995microstructure sinteringoxide- (589), 855, 1006oxide- bibliography 2002oxide- boride 830
; carbide- 388, 488, 1137refractories 2650sintering 2928survey 909TaB-Re,-W; HfC ••• ; NbC ••• ; TaC••• ; ZrC••• ; Ce02••• ; Th02••• ; Zr02 •••
compatibility 2267TiC-Cb,-Cr,-Mo,-V; VC ••• ; ZrC••• ; HfC•••
-Co,-Ni 1314-Cu; WC-Cu 1350
UC-U microstructureU02-Bi 846, 1053
-Pb 813-Pt 940
U308-Al strength electrical conductivity 282VC-Cb,-Gr,-Mo,-V; ZrC••• ; HfC••• ; TiC... cutting materialWB-Ni; W2B-Ni; W2B5-Ni 2694ZrC-Cb,-Cr,-Mo,-V; HfC••• ; TiC••• ; VC •••
wetting
wetting
wetting
wetting /contact angle, measurement/wetting /rare earths/ 681
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684, 2847
WO-Co microstructure 36W03-Au,-Pt; TaO-Au,-Pt sputtering resistor (thin-film) 2032
-Ni; NiO-Be compatibility 869
yield ~ strength (yield)YC2-Ir,-pt; Ce02••• ; ErC2... compatibility constitution 2885YB6-Re electrical conductivity 2520Y203-Nb,-Ta,-W; A1203 ••• ; BeO••• ; MgO••• ; Th02... compatibility 1803
-Pu; ZrC-Pu; A120?-Pu; CaF2-Pu; NbC-Pu compatibility /crucible/ 2630-W; Ti02-W joining 2174-Yb; Eu203-Eu compatibility 2839-Zr mechanical properties 2085
microstructure 1953Y02-Zr 2295Y02-Zr; Yb203-Zr; Er203-Zr constitution 2297Yb203'Yb; Eu203-Eu; Sm203-Sm 2603Yb205-Zr; Er203-Zr; Y02-Zr constitution 2297Yt203-Cr; Hf02-W; MoSi-Mo coating 2573
ZnO-AgZnO-Ag;ZnO-In;ZnS~Cr
contact patent 76, 104, 236CdO-Ag; HgO-Ag; Sn02-Ag contact patentCdS-Inj CdSe-JL~ electrical conductivityfriction material 2201
768strength, measurement 415
ZrB- (655)ZrB=Co,=Cr,-Fe,-Ni; CrB2 ••• ; VB••• ; WB... infiltration patent 448ZrB2-Cu coating (electrodeposition) 2878ZrB2-Be,-Co,-Cr,-Fe,-Ni,-Zr; ZrC••• ; A1203 ••• ; Cr203••• ; MgO••• ; SiN••• ;
TiB2••• ; TiN... 134-Co,-Cr,-Ni 307-Cr coated particles infiltration 1159-Cr,-Mo,-Zr; CrB••• ; MoB2... 346-Re constitution 2599-Mo sintering 1838
ZrC coatings patent 2582ZrC-Ag,-Si,-W; MgO••• ; MoSi2 ••• ; NbC••• ; TaC••• ; Th02••• ; TiC... thermal
expansion 871-Be,-Co,-Cr,-Fe,-Ni,-Zr; A1203 ••• ; Cr203••• ; MgO••• ; SiN••• ; TiB2 ••• ;
TiN••• ; ZrB2... 134-Cb sintering 68-Cb,-Cr,-Mo,-V; HfC ••• ; TiC••• ; VC... wetting cutting material 1823-Cr,-Fe; A1203••• ; BC... 67-Mo,-Nb,-Ta,-W; NbC... coatings book 2168-Nb compatibility 159-Ni pressing (hot) 2018-Pu; Zr02-Pu; CaF2-Pu; NbC-Pu compatibility /crucible/ 2630-Re,-W; Ce02••• ; Th02••• ; Zr02••• ; TaB••• ; HfC••• ; NbC••• ; TaC•••
compatibility wetting 2267-W casting (slip c.) 2410-Zr; MoC-Mo; NbC-Nb; TaC-Ta; TiC-Ti; WC-W coating 2707
ZrH-U fuel elements (784), 2102ZrN coatings electrode patent 2581
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105
2630
55
1911wetting
2228
1654
2280
2098, 2310
1733
-w-Zr-Zr
ZrH-U fuel elements (784), 2102Zr02- (85), 2045Zr02- coatings (2277)Zr02-Ag,-Au,-Co,-Cu,-Fe,-Ni,-Sn; A1203 ••• ; ]4C••• ; CaO••• ; Si02•••
-Al,-Be,-Co,-Ni,-Zr; A1203 ••• ; BeO... 282, 283, 284-Be,-Co,-Cr,-Fe,-Ni,-Zr; A1203 ••• ; Cr203••• ; MgO••• ; SiN••• ; TiB2••• ;
TiN••• ; ZrB2••• ; ZrC••• ; Zr02... 134-Be,-Fe,-Ni,-Si; A1203 ••• ; Be2C••• ; BeO••• ; MgO••• ; Ti02 ••• ; Zr02 •••-Be,-Mo,-T~,-Z:; A1203~Mo,-Ti,-Zr; MoSi-Bi 72. 11 . 0 .
Zr02-Be,-Mo,-N~,-S~,-Zr; A1203••• ; MgO••• ; Th02••• ; T~02 •••. comp1t~t~t~ty-Co,-Cu,-Ni,-Sn; A1203 ••• ; SiC••• ; Si02... wetting 1440-Co,-Fe,-Ni; A1203 ••• ; BeO••• ; Cr203••• ; MgO... constitution-Cr compatibility 1550-Cr; A1203-Ni; Th02-Cr; WC-Co coatings-Cr,-Ni; Th02~.. 2636-Fe,-Ni; A1203 ••• ; MgO... 483-Mo cutting material /die/ 2891
microstructure 1554, 1994-Mo; Th02-Ni 2682-Mo; U02-Mo ooated partic1es-Mo,-W mierostructure 2079-Mo,-W; Hf02••• ; Th02... coating (flame spraying) patent-Mo,-W; MgO-Mo coated partic1es strength 1712-Ni 1114-Pu; CaF2-Pu; NbC-Puj Y203-PU; ZrC-Pu compatibility /crucib1e/-Re,-W; TaB••• ; HfC••• ; NbC••• ; TaC••• ; ZrC••• ; Ca02••• ; Th02•••
compatibi1ity wetting 2267-Sr contact 1276-ss; UN-W; U02-Cu,-Mo microstructure-Ti 636-Ti compatibi1ity 1386, 1388
strength elastic constants thermal expansion thermal eond. 1763rocket material patent 2439
715, 1023microstructure 1389thermal eonduetivity