Sandip University

Sandip University Neelam Vidya Vihar, Vill.: Sijoul. P.O. : Mailam, Dist.:Madhubani, Bihar -847235

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Toll-Free No.- 1800-313-2714 Ph: 7549991044.

School: Engineering &Technology Programme: B.Tech - Civil Engineering

Year:- Second Year Semester:- IV

Course:-Concrete Technology Course Code:- CE401T

Theory:- 3 Hours/Week Max. University Theory Examination:- 60 Marks

Continuous Internal Assessment:- 40 Marks

Max. Time for Theory Exam:- 2.5 Hrs Credit:- 3

Objectives:-

1 The course relates to the fundamentals related to concrete and concrete material, besides deal-

ing with masonry, reinforcement, etc.

2 The course moves on to design-mix, special concretes, Nondestructive testing, etc.

3 The course relates to analyze various special concrete and their applications.

Unit

Number Details Hours

1

Introduction Classification :properties, grades, advantage & disadvantages of

concrete, Ingredients of concrete, types of cement, aggregates, water,

admixtures, Inspection & testing of materials as per Indian Standard

Specifications.

8

2

Properties of Fresh and Hardened Concrete:- Introduction, Workability,

Testing of concrete, Factors affecting, Rheology of concrete, Compressive &

Tensile strength, Stress and strain characteristics, Shrinkage and temperature

effects. Creep of concrete, Permeability, durability, thermal properties &

micro-cracking of concrete.

8

3

Design of Concrete Mix : Various classical methods of concrete mix design,

I.S. code method, basic considerations and factors influencing the choice of

mix design, acceptance criteria for concrete, concrete mixes with Surkhi and

other Pozzolanic materials, design of plastic concrete mix, computer aided

design of concrete mix.

8

4

Production and Quality Control of Concrete:- Production of crushed stone

aggregate, batching equipments for production and concreting, curing at

different temperatures, Concreting underwater, hot & cold weather condition,

statistical quality control, field control, non-destructive testing, repair

technology for concrete structures, Inspection & Testing of Concrete.

8

5

Special Concretes : Light weight concrete, Ready mix concrete, Vacuum

concrete, Ferrocement, Fiber reinforced concrete, Polymer concrete

composites, Shotcrete, Guniting, Rubble concrete, Resin concrete, Prestressed

concrete, Heat resistant concrete, Mass concrete, Temperature control of mass

concrete. Self compacting concrete.

8

Total (Hrs) 40

Course Outcomes

Student Should able to:-

CO1 Select proper ingredients of concrete and acquire knowledge about the testing of materials

for quality assurance.

CO2 Select special concretes for specific purposes.

CO3 Understand about the various types of cements, concretes and their properties.

Resources

Recommended Books 1. M S Shetty, Concrete Technology. S. Chand Technical

2. Rai Mohan, M.P. Jai Singh, Advances in Building Materials & Construction

Reference Books

1. M L Gambhir,Concrete Technology Theory and Practice, McGraw-Hill

Education.

2. J Thomas, Concrete Technology, Cengage Learning.

3. AM Neville, Concrete Technology, Pearson Education India.

4. Santhakumar ,Concrete Technology., Oxford University Press

5. SS Bhavikatti, Concrete Technology, IK International

6. Sinha, S N Reinforced Concrete Design, Tata McGraw Hill Education

Private Limited.

7. Jackson N, R K Dhir, Civil Engineering materials, Macmillan

IS CODES:

1. New Building Materials B.M.T.P.C., New Delhi

2. Hand books on Materials & Technology. BMTPC & HUDCO

E-Resources 1. http://www.nptel.ac.in/courses/105102012/

2. https://www.scribd.com/doc/292231196/Lecture-I-Introduction-to-

Concrete-Technology

http://www.nptel.ac.in/courses/105102012/

https://www.scribd.com/doc/292231196/Lecture-I-Introduction-to-Concrete-Technology

https://www.scribd.com/doc/292231196/Lecture-I-Introduction-to-Concrete-Technology



Toll-Free No.- 1800-313-2714 Ph: 7549991044.



Course:- Fluid Mechanics Course Code:- CE402T

Theory:- 4Hours/Week Max. University Theory Examination:- 60 Marks


Max. Time for Theory Exam.:- 2.5 Hrs Credit:- 4

Objectives:-

1 To understand the basic concepts of fluid mechanics for undergraduate students in Civil Engineer-

ing.

2 The course will begin with the fundamental concepts of fluid flow and proceed to cover various

flow phenomena.

3 The Course approaches to analyze the flow phenomena. Some important applications shall also be

covered.

Unit


1

Static Fluid Properties: Engineering units of measurement, mass, density,

specific weight, specific volume, specific gravity, surface tension, capillarity,

viscosity, bulk modulus of elasticity, pressure and vapor pressure.

8

2

Kinematics of Flow : Types of flow-ideal & real , steady & unsteady, uniform

& non-uniform, one, two and three dimensional flow, streamlines, path lines,

streak lines and stream tubes; continuity equation for one and three

dimensional flow, rotational & irrotational flow, circulation, stagnation point,

velocity potential, stream function, flow nets- their utility & method of

drawing flow nets.

8

3

Dynamics of Flow: Euler’s equation of motion along a streamline and

derivation of Bernoulli’s equation, application of Bernoulli’s equation, energy

correction factor, linear momentum equation for steady flow; momentum

correction factor. The moment of momentum equation, forces on fixed and

moving vanes and other applications. Venturimeter and Orificemeter.

8

4

Dimensional Analysis and Dynamic Similitude: Dimensional analysis,

dimensional homogeneity, use of Buckingham-pi theorem, calculation of

dimensionless numbers, similarity laws, specific model investigations

8

(submerged bodies, partially submerged bodies, weirs, spillways, roto

dynamic machines etc.)

5

Laminar Flow: Introduction to laminar & turbulent flow, Reynolds experiment

& Reynolds number, relation between shear & pressure gradient, laminar flow

through circular pipes, laminar flow between parallel plates, laminar flow

through porous media, Stokes law, lubrication principles.

8

Total (Hrs) 40

Course Outcomes

Student Should able to :

CO1 Understanding of basic physics of fluids

CO2 Gaining knowledge to calculate and design engineering applications involving fluid.

CO3 Understanding of analyzing flow systems in terms of mass, momentum, and energy balance

Resources

Recommended Books 1. Modi & Seth; Fluid Mechanics; Standard Book House, Delhi

2. Fluid Mechanics; Gupta Pearson.

Reference Books

1. Som and Biswas; Fluid Mechnics and machinery; TMH

2. Cengal; Fluid Mechanics; TMH

3. White ; Fluid Mechanics ; TMH

4. Essential of Engg Hyd. By JNIK DAKE; Afrikan Network & Sc Instt.

(ANSTI)

5. A Text Book of fluid Mech. for Engg. Student by Franiss JRD

6. R Mohanty; Fluid Mechanics By; PHI

E-Resources 1. http://nptel.ac.in/courses/112104118/

2. https://www.scribd.com/doc/233755986/Formula-Notes-for-Cracking-

Fluid-Mechanics-for-Gate-by-Jain-Sir

http://nptel.ac.in/courses/112104118/

https://www.scribd.com/doc/233755986/Formula-Notes-for-Cracking-Fluid-Mechanics-for-Gate-by-Jain-Sir

https://www.scribd.com/doc/233755986/Formula-Notes-for-Cracking-Fluid-Mechanics-for-Gate-by-Jain-Sir



Toll-Free No.- 1800-313-2714 Ph: 7549991044.

School: Engineering &Technology Programme: B.Tech


Course:- Structural Analysis-I

Course Code: - CE403T

Theory: 4 Hours/Week Max. University Theory Examination: 60 Marks

Continuous Internal Assessment: 40 Marks

Max. Time for Theory Exam.: 2.5 Hrs Credit: 4

Unit

Number

Details Hours

1

Virtual work and Energy Principles: Principles of Virtual work applied to

deformable bodies, strain energy and complementary energy, Energy

theorems, Maxwell’s Reciprocal theorem, Analysis of Pin-Jointed frames for

static loads, Analysis of trusses.

8

2

Indeterminate Structures-I: Static and Kinematics indeterminacy, Analysis of

Fixed and continuous beams by theorem of three moments, Effect of sinking

and rotation of supports, Moment distribution method (without sway)

8

3

Indeterminate Structures - II: Analysis of beams and frames by slope

Deflection method, Column Analogy method.

8

4

Arches and Suspension Cables: Three hinged arches of different shapes,

Eddy’s Theorem, Suspension cable, stiffening girders, Two Hinged and Fixed

Arches - Rib shortening and temperature effects.

8

5

Rolling loads and Influence Lines: Maximum SF and BM curves for various

types of Rolling loads, focal length, EUDL, Influence Lines for Determinate

Structures- Beams, Three Hinged Arches.

8

Total (Hrs) 40

Objectives:-

1 To introduce the student to the importance and objectives of Structure analysis.

2 The course would begin with the basic concepts of structure.

3 The student will be able to analyze load and forces.

Course Outcomes


CO1 Demonstrate the concepts of qualitative influence line diagram for continuous beams and

frames

CO2 Apply the methods of indeterminate truss analysis

CO3 Analyze cable suspension bridges

Resources

Recommended Books 1. Reddy C.S., Basic Structural Analysis, Tata McGraw Hill Publishing Com-

pany, New Delhi

2. Theory of Structures by S.Ramamurtham, Dhanpat Rai Publications & Co.,

New Delhi

Reference Books

1. Ghali A & Neville M., Structural Analysis - A Unified classical and matrix

Approach, Chapman and Hall, New York.

2. Wang C.K. Intermediate structural analysis, McGraw Hill, New York.

3. Kinney Streling J. Indeterminate structural Analysis, Addison Wesley.

4.Norris C.H., Wilbur J.B. and Utkys. Elementry Structural Analysis, McGraw

Hill International, Tokyo

E-Resources 1. http://nptel.ac.in/downloads/105101085/

2. https://lecturenotes.in/notes/5683-structural-analysis-1-sa-1-by-sushant-

kumar

http://nptel.ac.in/downloads/105101085/

https://lecturenotes.in/notes/5683-structural-analysis-1-sa-1-by-sushant-kumar

https://lecturenotes.in/notes/5683-structural-analysis-1-sa-1-by-sushant-kumar



Toll-Free No.- 1800-313-2714 Ph: 7549991044.



Course:- Soil Mechanics Course Code:- CE404T




Objectives:-

1 The course relates to the fundamentals related to Soil Mechanics.

2 The course moves on soil property, stress distribution, earth pressure etc.

3 To develop an understanding of the relationships between physical characteristics and mechanical

properties of soils

Unit


1

Basic Definitions & Index Properties: Definition and scope of soil mechanics,

Historical development. Formation of soils. Soil composition. Minerals,

Influence of clay minerals on engineering behaviour. Soil structure. Three

phase system. Index properties and their determination. Consistency limits.

Classification systems based on particle size and consistency limits.

8

2

Soil Water and Consolidation: Soil water, Permeability Determination of

permeability in laboratory and in field. Seepage and seepage pressure. Flow

nets, uses of a flow net, Effective, neutral and total stresses. Compressibility

and consolidation, Relationship between pressure and void ratio.

8

3

Stress Distribution in Soils and Shear Strength of Soils: Stress distribution be-

neath loaded areas by Boussinesq and water gaurd’s analysis. Newmark’s in-

fluence chart. Contact pressure distribution. Mohr - Coulomb’s theory of shear

failure of soils, Mohr’s stress circle, Measurement of shear strength, Shear

box test.

8

4

Stability of Slopes: Infinite and finite slopes. Types of slope failures,

Rotational slips. Stability number. Effect of ground water. Selection of shear

strength parameters in slope stability analysis. Analytical and graphical

methods of stability analysis. Stability of Earth dams.

8

5

Lateral Earth Pressure: Active, passive and earth pressure at rest. Rankine,

Coulomb, Terzaghi and Culmann’s theories. Analytical and graphical methods

of determination of earth pressures on cohesion-less and cohesive soils. Effect

of surcharge, water table and wall friction. Arching in soils. Reinforced earth

retaining walls.

8

Total (Hrs) 40

Course Outcomes


CO1 To develop an appreciation soil as a vital construction material, and of soil mechanics in the

engineering of civil infrastructure

CO2 To develop an understanding of the relationships between physical characteristics and

mechanical properties of soils

CO3 To understand and experience experimental measurement of the physical and mechanical

soil properties commonly used in engineering practice

Resources

Recommended Books 1. Soil Mech. & Found. by Dr. B.C.Punmia- Laxmi Publications, Delhi.

2. Soil Mech. & Found. Engg. by S.K. Garg- Khanna Publishers, Delhi

Reference Books

1. Soil Mech. & Found. Engg. by Dr. K.R. Arora - Std. Publishers Delhi.

2. Modern Geotech Engg. by Dr.Aram Singh - IBT Publishers, Delhi.

3. Geotech Engg. by C. Venkatramaiah - New Age International Publishers,

Delhi

4. Soil Testing for Engg. by T.W. Lambe - John Wiley & Sons. Inc.

5. Relevant I.S. Codes

E-Resources 1. http://nptel.ac.in/courses/105103097/

2. https://www.slideshare.net/vlmvv2/soil-

mechanicsfullcoursenotesandlectures

http://nptel.ac.in/courses/105103097/

https://www.slideshare.net/vlmvv2/soil-mechanicsfullcoursenotesandlectures

https://www.slideshare.net/vlmvv2/soil-mechanicsfullcoursenotesandlectures



Toll-Free No.- 1800-313-2714 Ph: 7549991044.

School: Engineering &Technology Programme: B.Tech- Civil Engineering


Course:- Advance Surveying Course Code:- CE 405T




Objectives:-

1 The course would begin with the basic concepts of surveying and move on to discuss advance-

ments such as modern equipment, EDM and Remote Sensing.

2 The student will be able to plan a survey for applications such as road alignment and height of the

building.

3 To learn about errors in measurements and their adjustments in a traverse

Unit


1

Control Surveys: Providing frame work of control points, triangulation

principle, Survey station, angle measurements and corrections, baseline

measurement and corrections, computation of sides, precise traversing.

8

2

Modern equipments for surveying:- Digital levels and theodolites, Electronic

Distance measurement(EDM), Total Station and Digital Planimeter.

8

3

GPS Surveying: Introduction & components of GPS, Space segment, control

segment and user segment, Elements of Satellite based surveys-Map datum,

GPS receivers, GPS observation methods and their advantages over

conventional methods.

8

4

Surveying Astronomy:- Definitions of astronomical terms, coordinate systems

for locating heavenly bodies, geographic, geodetic, geocentric, Cartesian,

local and projected coordinates for earth resources mapping.

8

5

Photogrammetry: - Principle, definitions and classifications of terrestrial and

aerial photogrammentry, flight planning for aerial photography, scale and

relief displacements of vertical aerial photographs. Remote Sensing.

8

Total (Hrs) 40

Course Outcomes


CO1 Set out curves, buildings, culverts and tunnels carry out a geodetic survey, taking accurate

measurements using instruments and adjusting the traverse

CO2 Apply mathematical adjustment of accidental errors involved in surveying measurements

CO3 Plan a survey for applications such as road alignment and height of the building

Resources

Recommended Books 1. B.C Punmia, Surveying Vol-II & III ,Laxmi Publication.

2. S.K. Duggal, Surveying Vol. II McGraw Hill Publishing Company Ltd.

Reference Books

1. Surveying and Leveling-Part-I & II by T.P. Kanetkar and S.V. Kulkarini,

Pune Vidyarthi Griha Prakashan, Pune

2. Engineering Surveying : Theory and Examination Problems for Students by

W. Schofield, Butterworth, Heinemann,Oxford.

3. Surveying: Problems Solving with theory and objective type questions by

A.M. Chandra, New Age International Publishers N. Delhi.

4. Advance Surveying by A.M. Chandra, New Age International Publishers N.

Delhi.

E-Resources 1. https://lecturenotes.in/subject/142/surveying-2-s-2

2. https://lecturenotes.in/materials/7623-advanced-

surveying?utm_source=subjectpage&utm_medium=web&utm_campaign

=materialpage

https://lecturenotes.in/subject/142/surveying-2-s-2

https://lecturenotes.in/materials/7623-advanced-surveying?utm_source=subjectpage&utm_medium=web&utm_campaign=materialpage



Sandip University

Neelam Vidya Vihar, Vill.: Sijoul. P.O. : Mailam, Dist.:Madhubani, Bihar -847235


Toll-Free No.- 1800-313-2714 Ph: 7549991044.



Course:- Fluid Mechanics Lab Course Code:- CE406P

Practical:- 3 Hrs/Week Max. University Practical Examination:- 10 Marks

Lab Continuous Internal Assessment:- 15 Marks

TW :- 25 Marks

Max. Time for Exam:- 2 Hrs Credit:- 1

Practical Objectives:-

1 Determine the energy loss in conduits

2 Measure discharge in pipes

Sr. No. Practical Description

1 To determine the local point pressure with the help of pitot tube.

2 To find out the terminal velocity of a spherical body in water.

3 Calibration of Venturimeter

4 Determination of Cc, Cv, Cd of Orifice

5 Calibration of Orifice Meter

6 Calibration of Nozzle meter and Mouth Piece

7 Reynolds experiment for demonstration of stream lines & turbulent flow

8 Determination of metacentric height

9 Determination of Friction Factor of a pipe

10 Verification of Impulse momentum principle.

Notes

Each student should perform at least 9 experiments from the list of experiments. First Five

Experiments are compulsory. Any two experiments on DC Machine & one on single phase induction.

Report on industrial visit is compulsory.

The experiments from the regular practical syllabus will be performed. The regular attendance of

students during the syllabus practical course will be monitored and marks will be given accordingly.

For good Laboratory Practices Minimum one visit should be arranged to electrical Machine

manufacturing company.

Practical/Oral/Presentation:

Practical/Oral/Presentation shall be conducted and assessed jointly by internal and external examiners.

The performance in the Practical/Oral/Presentation examination shall be assessed by at least a pair of

examiners appointed as examiners by the University. The examiners will prepare the mark/grade sheet

in the format as specified by the University.

Sandip University



Toll-Free No.- 1800-313-2714 Ph: 7549991044.



Course:- Concrete Technology Lab Course Code:- CE407 P

Practical : 3 Hrs/Week Max. University Practical Examination:- 10 Marks




1 To study the behavior of concrete at its fresh and hardened state

2 To know about the procedures in concreting


1 Compressing strength of concrete cube.

2 To determine the flexure strength of concrete.

3 Determination of workability of concrete by slump test

4 Determination of workability by compacting factor apparatus.

5 Determination of workability by Vee Bee consistometer

6 Nondestructive testing of concrete by Rebound hammer test

7 Nondestructive testing of concrete by ultrasonic Method.

8 Test for the effect of admixtures on the concrete compressive strength

9. Testing of micro concrete

10. Design of concrete mix.

Notes













Sandip University



Toll-Free No.- 1800-313-2714 Ph: 7549991044.



Course:- Advance Surveying Lab Course Code:- CE408P





1 To learn about errors in measurements and their adjustments in a traverse

2 To understand the basics and elements of different types of curves on roads and their

preliminary survey


1 Study of planimeter.

2 Profile leveling, contouring & cross sectioning

3 Determination of tachometric constants & uses of tachometer in various field works

4 Curve setting by different methods.

5 To give layout of given plan of building.

Notes








Sandip University



Toll-Free No.- 1800-313-2714 Ph: 7549991044.

School: Engineering &Technology Programme: B.Tech – Civil Engineering


Course:- Soil Mechanics Lab Course Code:- CE409P



TW :- 25 Marks



1 To estimate shear strength of soils by direct shear test, triaxial shear test, vane shear test &

unconfined compressive test

2 To estimate consistency limit of fine grained soils


1 Determination of Hygroscopic water content

2 Particle - size analysis

3 Determination of Specific gravity of soil particles

4 Determination of plastic limit

5 Determination of liquid limit

6 Determination of shrinkage limit

7 Permeability tests

8 Direct shear test

9 Consolidation test

10 Indian Standard Light Compaction Test/Std. Proctor Test

11 Determination of field density by Core Cutter Method

Notes

1 Each student should perform at least 8 experiments from the list of experiments.

2 The experiments from the regular practical syllabus will be performed

3 The regular attendance of students during the syllabus practical course will be monitored

and marks will be given accordingly.

4 Minimum two tutorials must be conducted from the remaining list of experiments.




examiners appointed as examiners by the University.

Sandip University



Toll-Free No.- 1800-313-2714 Ph: 7549991044.

School: Engineering &Technology Programme: B.Tech – Civil Engineering


Course:- Internship Training(4 weeks) Course Code:- CE410P

Credit:- 3


1 Prepare students for successful engineering or management careers in the architecture, engi-

neering, and construction (AEC) industry or related fields.

2 Provide employers with a well-educated workforce that is ready and able to perform valuable

civil and construction engineering and managerial services immediately after graduation.

3 Encourage the growth of knowledge-based industry and stimulate economic growth in Arkan-

sas.

INTERNSHIP GUIDELINES

The internship shall be completed during the period specified in the Scheme of Teaching and

Examination.

The internship can be carried out in any industry/R and D Organization/Research Insti-

tute/Educational institute of repute.

(A) The Department/college shall nominate staff members to facilitate, guide and supervise

students under internship. (B) The Internal Guide has to visit place of internship at least once

during the student’s internship.

The students shall report the progress of the internship to the guide in regular intervals and

seek his/her advice.

After the completion of Internship, students shall submit a report with completion and atten-

dance certificates to the Head of the Department with the approval of both internal and exter-

nal guides.

The internal guide shall award the marks for seminar and internship report after evaluation.

He/she will also be the internal examiner for Viva-Voce conducted during SEE.

The external guide from the industry shall be an examiner for the viva voce on Internship. Vi-

va-Voce on internship shall be conducted at the college and the date of Viva-Voce shall be

fixed in consultation with the external Guide. The Examiners shall jointly award the Viva-Voce

marks.

In case the external Guide expresses his inability to conduct viva voce, the Chief superin-

tended of the college institution shall appoint a senior faculty of the Department of conduct vi-

va-voce along with the internal guide. The same shall be informed in writing to the concerned

Chairperson, Board of Examiners (BOE).

The students are permitted to carry out the internship anywhere in India or abroad. The Uni-

versity will not provide any kind of financial assistance to any student for carrying out

the Internship.

Other important note :

It is mandatory that student has to complete the internship.

If any student fails to complete internship, he/she will not be eligible for the award of degree.

In case of non-completion of internship, the student has to redo the internship.

Notes

1 Each student should perform at least 8 experiments from the list of experiments.

2 The experiments from the regular practical syllabus will be performed

3 The regular attendance of students during the syllabus practical course will be monitored

and marks will be given accordingly.

4 Minimum two tutorials must be conducted from the remaining list of experiments.

Sandip University

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