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Mydoc/titip/jal/design/pondasi.xls
Design Pondasi
Gudang Oli PH 4,5
A. Data teknis
Gaya aksial Perlu/vertikal (Pu) = 5706.4 kg
Gaya aksial Perlu/horizontal (Ph) = 0 kg
Momen perlu (M1) = 70 kgm
f'c = 21 Mpa
fy = 240 Mpa
Lebar kolom pondasi(b) = 200 mm
Tinggi kolom pondasi (h) = 300 mm
B. Hasil Analisa
30
0 m
m
Lebar pondasi (B) = 500 mm
Tebal pondasi (d) = 150 mm 200 mm
Tulangan = dia8 - 200
Jumlah tul.per lebar pondasi = 4 bh
15
0
C. Analisa
Data penyelidikan tanah
(Wet density) = 1.289
f (angle of internal friction) = 4.5
c (cohesion) = 0.05
t (timbunan tanah merah) = 0 cm B=500
Analisa Terzaghi
f = 0 5
Nc = 5.7 7.3
Nq = 1 1.6
B=
500= 0 0.5
= 4.5
Nc = 7.14
Nq = 1.54
= 0.45
= 0.476 B=500
SF ( safety factor) = 1.5
qa tanah = qult/SF = 0.317
= 1.233 12330
Rencana jumlah gelam = 2 bh
= 2.466
qa tanah + gelam = 2.783 = 0.27831
g t/m3
o
kg/cm2
qult = 1,3.c.Nc.+q.Nq+0,4.g.B.Ng
Tabel Tersaghi untuk nilai :f,Nc,Nq,Ng
Ng
Untuk sudut geser (f) o
Ng
qult = 1,3.c.Nc.+q.Nq+0,4.g.B.Ng kg/cm2
kg/cm2
Daya dukung gelamf10-600 kg/cm2
Daya dukung gelam totalf10-600 kg/cm2
kg/cm2 N/mm2
Pu/B^2 <s'lentur
gelamf10-6m
b
b
Mu
Pu
d=
gelamf10-6m
Ph
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Mydoc/titip/jal/design/pondasi.xls
B^2 = 205035
B = 453 mm
1. One way action
diambil lebar pondasi = 500 mm
qu= Pu/B^2 = 0.22826
Vu < Vc
=
Tebal pondasi (d) ³ 148.862 mmdiambil tebal pondasi = 150 mm
= 0.228 < 0.278 Ok!
2. Two way action
= 2.5bo =2*((B+d)+(B+d)) = 2600 mm
= ### N
Vcmax=4*sqrt*f'c*bo*d = 7148818 N
Vc < Vcmax……..ambil Vc = ### N
= 3860362 N
Vu =qu*((B^2-(B+d)*(b+d)) = 5135.76 N < 3860362 N Ok!
3. Tinjauan terhadap momen lentur
= 70000 kgmm
= 0 kgmm
= 27.0062
= 8 mm
Jarak = 200 mm
As perlu = 251
= 0.00335 > 0.00058
= 0.00058
= 0.26322 > r = 0.00335
= 0.19741
Lengan momen (a)=(Aperlu*fy)/(0.85= 6.75838 mm
= 7075167 Nmm
= 707.517 kgm > Mu 70 kgm Ok!
B^2 ³ Pu/s'lentur, mm2
N/mm2
qu*B(0.5*B-0.5*b-d)£0.6*1/6(sqrt(f'c))*B*d
qu= Pu/B^2<s'lentur N/mm2 N/mm2
bc =B/b
Vc =(1+2/bc)*2*sqrtf'c*bo*d
fVc=0.6*Vc
M1 (momen akibat reaksi kolom)
M2 (momen akibat gaya horisontal)
AS = Mu/f0,9*d*fy mm2
dicoba tulangan f
mm2
r =As perlu/B*d r min = r min =1.4/FY
rb =b1*((0.85*f'c)/fy)+(600/(600+fy))
r max =0.75*rb
fMn =fAs*fy(d-0.5a)
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Mydoc/titip/jal/design/pondasi.xls
kg/m2
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Mydoc/titip/jal/design/pondasi.xls
0.378
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Design Pondasi Tanki Depo BBM Modul3 Blok V
A. Data teknis
Gaya aksial Perlu/vertikal (Pu) = 718.333 kg
Gaya aksial Perlu/horizontal (Ph) = 0 kg
Momen perlu (Mu) = 10 kgm
f'c = 22.5 Mpa
fy = 240 Mpa
Lebar kolom (b) = 150 mm
dimensi Pondasi
Lebar pondasi (B) = 500 mm
Tebal pondasi (d) = 100 mm
B. Analisa
Berat tangki = 2000 kg
Berat minyak tanah = 17430 kg 150
Berat sendiri plat (t:10 cm) = 2880 kg
Berat total = 22310 kg
10
0
Daya dukung tanah + gelam = 18000 kg
Berat sisa (untuk satu kolom) = 718.333 kg
Data penyelidikan tanah
(Wet density) = 1.289
f (angle of internal friction) = 4.5
c (cohesion) = 0.05 500
t (timbunan tanah merah) = 0 cm
Analisa Terzaghi
12
5
f = 0 5
Nc = 5.7 7.3
Nq = 1 1.6
30
0 500
= 0 0.5
= 4.5
Nc = 7.14
Nq = 1.54
= 0.45 500 125 panjang po
= 0.466 lebar pon
SF ( safety factor) = 1.5 D gelam
qa tanah = qult/SF = 0.311 jml gelam
= 0.02 x
Rencana jumlah gelam = 4 bh y
= 0.08 luas perlu
g t/m3
o
kg/cm2
qult = 1,3.c.Nc.+q.Nq+0,4.g.B.Ng
Tabel Tersaghi untuk nilai :f,Nc,Nq,Ng
Ng
Untuk sudut geser (f) o
Ng
qult = 1,3.c.Nc.+q.Nq+0,4.g.B.Ng kg/cm2
kg/cm2
Daya dukung gelamf10-600 kg/cm2
Daya dukung gelam totalf10-600 kg/cm2
Mu
Pu
b=
B=
d=
gelamf10-6m
B=
b
B=
b
gelamf10-6m
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qa tanah + gelam = 0.391 = 0.03909 jml gelam
jumlah gela
B^2 = 183742
B = 429 mm
1. One way action
qu= Pu/B^2 = 0.03909
Vu < Vc
=
Tebal pondasi (d) ³ 12.5145
diambil lebar pondasi = 500 mm
= 0.029 < 0.039 Ok!Vu < Vc
=
Tebal pondasi (d) ³ 11.2842 mm
diambil tebal pondasi = 100 mm
2. Two way action
= 3.33333bo =2*((B+d)+(B+d)) = 2400 mm
= ### N
Vcmax=4*sqrt*f'c*bo*d = 4553680 N
Vc < Vcmax……..ambil Vc = ### N
= 2185766 N
Vu =qu*((B^2-(B+d)*(b+d)) = 2873.33 N < 2185766 N Ok!
3. Tinjauan terhadap momen lentur
= 5.78704
As perlu = 524
= 0.01048 > 0.00058
= 0.00058
= 0.26773 > r = 0.01048
= 0.2008
Lengan momen (a)=(Aperlu*fy)/(0.85= 13.1514
= 9399233 Nmm
= 939.923 kgm > Mu 10 kgm Ok!
kg/cm2 N/mm2
Pu/B^2 <s'lentur
B^2 ³ Pu/s'lentur, mm2
N/mm2
qu*B(0.5*B-0.5*b-d)£0.6*1/6(sqrt(f'c))*B*d
qu= Pu/B^2<s'lentur N/mm2 N/mm2
qu*B(0.5*B-0.5*b-d)£0.6*1/6(sqrt(f'c))*B*d
bc =B/b
Vc =(1+2/bc)*2*sqrtf'c*bo*d
fVc=0.6*Vc
AS = Mu/f0,9*d*fy mm2
dicoba tulangan f10-150
mm2
r =As perlu/B*d r min = r min =1.4/FY
rb =b1*((0.85*f'c)/fy)+(600/(600+fy))
r max =0.75*rb
fMn =fAs*fy(d-0.5a)
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500
500 mm
100 mm
2 bh
125
125
62500
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2
4
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Design Pondasi Tanki Depo BBM Modul3 Blok V
titik a
A. Data teknis
Momen perlu (Mu) = 0 kgm
f'c = 17.5 Mpa
fy = 240 Mpa
Daya dukung tiang pancang = 1351 kg
Lebar kolom (b) = 200 mm
dimensi Pondasi
Lebar pondasi (B) = 1000 mm
Tebal pondasi (d) = 200 mm
B. Analisa
Berat pipa + pompa = 1531.9 kg
Berat air = 1458.4 kg 200
Berat total = 2990.3 kg
Daya dukung T.Pancang = 2702 kg
20
0
Berat sisa (untuk satu kolom) = 288.295 kg
Gaya aksial Perlu/vertikal (Pu) = 288.295 kg
Data penyelidikan tanah
(Wet density) = 1.289
f (angle of internal friction) = 4.5
c (cohesion) = 0.05 1000
t (timbunan tanah merah) = 0 cm
Analisa Terzaghi
12
5
f = 0 5
Nc = 5.7 7.3
Nq = 1 1.6
30
0
1000
= 0 0.5
= 4.5
Nc = 7.14
Nq = 1.54
= 0.45 1000 125 panjang po
= 0.469 lebar pon
SF ( safety factor) = 1.5 D gelam
qa tanah = qult/SF = 0.312 jml gelam
= 1.233 x
Rencana jumlah T. Listrik = 2 bh y
= 2.466 luas perlu
g t/m3
o
kg/cm2
qult = 1,3.c.Nc.+q.Nq+0,4.g.B.Ng
Tabel Tersaghi untuk nilai :f,Nc,Nq,Ng
Ng
Untuk sudut geser (f) o
Ng
qult = 1,3.c.Nc.+q.Nq+0,4.g.B.Ng kg/cm2
kg/cm2
Daya dukung T. Listrik DPC-9-100 kg/cm2
Daya dukung T. Listrik total kg/cm2
Mu
Pu
b=
B=
d=
gelamf10-6m
B=
b
B=
b
gelamf10-6m
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qa tanah + T. Listrik = 2.778 = 0.27785 jml gelam
jumlah gela
B^2 = 10375.9
B = 102 mm
1. One way action
qu= Pu/B^2 = 0.27785
Vu < Vc
=
Tebal pondasi (d) ³ -97.0506
diambil lebar pondasi = 1000 mm
= 0.003 < 0.278 Ok!Vu < Vc
=
Tebal pondasi (d) ³ 2.77576 mm
diambil tebal pondasi = 200 mm
2. Two way action
= 5bo =2*((B+d)+(B+d)) = 4800 mm
= ### N
Vcmax=4*sqrt*f'c*bo*d = 1.6E+07 N
Vc < Vcmax……..ambil Vc = ### N
= 6746826 N
Vu =qu*((B^2-(B+d)*(b+d)) = 1499.13 N < 6746826 N Ok!
3. Tinjauan terhadap momen lentur
= 0
As perlu = 524
= 0.00262 > 0.00058
= 0.00058
= 0.25268 > r = 0.00262
= 0.18951
Lengan momen (a)=(Aperlu*fy)/(0.85= 8.45445
= 2E+07 Nmm
= 1969.63 kgm > Mu 0 kgm Ok!
kg/cm2 N/mm2
Pu/B^2 <s'lentur
B^2 ³ Pu/s'lentur, mm2
N/mm2
qu*B(0.5*B-0.5*b-d)£0.6*1/6(sqrt(f'c))*B*d
qu= Pu/B^2<s'lentur N/mm2 N/mm2
qu*B(0.5*B-0.5*b-d)£0.6*1/6(sqrt(f'c))*B*d
bc =B/b
Vc =(1+2/bc)*2*sqrtf'c*bo*d
fVc=0.6*Vc
AS = Mu/f0,9*d*fy mm2
dicoba tulangan f10-150
mm2
r =As perlu/B*d r min = r min =1.4/FY
rb =b1*((0.85*f'c)/fy)+(600/(600+fy))
r max =0.75*rb
fMn =fAs*fy(d-0.5a)
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500
500 mm
100 mm
2 bh
125
125
62500
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2
4
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Mydoc/titip/jal/design/pondasi.xls
Design Pile Cap (Tanpa tulangan geser)
A. Data teknis
Gaya aksial (b. mati+b. hidup) (Pu) = 2E+05 kg
Gaya aksial Perlu/horizontal (Ph) = 0 kg
Momen perlu (M1) = 70 kgm
Mutu beton (K125 ,K175, K225) = 225
fy = 320 Mpa
Lebar kolom pondasi(b) = 60 cm
Lebar tiang pancang(b') = 35 cm
Lebar pile cap (B) = 220 cmTebal pile cap (ht) = 60 cm
Penutup beton (Pb) = 7.5 cm
60
B. Analisa
a.Tebal pile cap dan penulangan
Berat sendiri pile cap = 6969.6 kg
Beban pertiang (ada 4tiang) = 81742 kg
0.5 0.3 0.6 0.3 0.5
Geser Pons
h=ht-Pb = 52.5 cm B=220
luas bidang geser =4(b+h)*h = 4(60+h)*h
= 10.159 < 15Ok
Cek Geser
potongan 2-2
= 80323 kg
B=
22
0= 11.591 < 12 Ok
Momen lentur potongan 1-1
berat sendiri pile cap (q) = 3168 kg/m
= 48032 kgm B=220
Cu = 52.5 = 4.3516 0.8
1.5*(48031.68) Tabel Cara kekuatan batas
2(0.5)*(2.2)*(225) Ir. Wiratman
d = 0.2 0.3
q = 0.0875 P=81742.4kg
= 2780
Amin=q*B*h*(2*0.5*mutu beton)/ * = 81.795
dicoba dia. Tul (d) = 14 mm
jarak = 9 cm
Luas tulang= 37.629 < 81.8 No Ok
kg/cm2
tbpu =Pu/(4(b+h)*h) <= t*bpu kg/cm2
D2-2= Ptiang - berat sendiri kepala tiang
tbu =1.5*D2-2/0.9*B*h <= t*bu(b.sementara) kg/cm2
M1-1
t*au kg/cm2
cm2
cm2
T. Pancang
35x35
b
b
Mu
Pu
d=
Ph
T. Pancang
35x35
21
1
1
q
t
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Mydoc/titip/jal/design/pondasi.xls
A'=0.2*Amin = 16.359
dicoba dia. Tul (d) = 14 mm
jarak = 9 cm
Luas tulang= 37.629 > 16.4 Ok !!!
cm2
cm2
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Mydoc/titip/jal/design/pondasi.xls
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Mydoc/titip/jal/design/pondasi.xls
Design Pile Cap (Tanpa tulangan geser)
A. Data teknis
Gaya aksial (b. mati+b. hidup) (Pu) = 2028 kg
Momen perlu (M1) = 147 kgm
Mutu beton (K125 ,K175, K225) = 175
fy = 240 Mpa
Lebar kolom pondasi(b) = 20 cm
Lebar tiang pancang(b') = 30 cm
Lebar pile cap (B) = 200 cm
Tebal pile cap (ht) = 12 cmPenutup beton (Pb) = 4 cm
12
B. Analisa
a.Tebal pile cap dan penulangan
Berat sendiri pile cap = 1152 kg
Beban pertiang (ada 4tiang) = 1302 kg
akibat My 0.35 0.4 0.2 0.4 0.35
tiang 1,3 ----> tertarik keatas
P1 = P3 = 1228.5 kg B=200
tiang 2,4----> tertekan kebawah
P2 = P4 = 1375.5 kg
Geser Pons
B=
20
0h=ht-Pb = 8 cm
luas bidang geser =4(b+h)*h = 4(20+h)*h
= 3.3951 < 13Ok
Cek Geser
potongan 2-2 B=200
= -328.5 kg
= -0.342 < 11 Ok0.75
Momen lentur potongan 1-1
berat sendiri pile cap (q) = 576 kg/m
= 938.4 kgm 0.4
P=1376kg
Cu = 8 = 3.9892
1.5*(938.4) Tabel Cara kekuatan batas
2(0.5)*(2)*(175) Ir. Wiratman
kg/cm2
tbpu =Pu/(4(b+h)*h) <= t*bpu kg/cm2
D2-2= Ptiang - berat sendiri kepala tiang
tbu =1.5*D2-2/0.9*B*h <= t*bu(b.sementara) kg/cm2
M1-1
T. Pancang
35x35
Mu
Pu
d=
Ph
T. Pancang
35x35
21
1
1
q
b
b
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Mydoc/titip/jal/design/pondasi.xls
d = 0.2
q = 0.0675
= 2080
Amin=q*B*h*(2*0.5*mutu beton)/ * = 9.0865
dicoba dia. Tul (d) = 10 mm
jarak = 15 cm
Luas tulang= 10.472 > 9.09 Ok !!!
A'=0.2*Amin = 1.8173
dicoba dia. Tul (d) = 6 mm
jarak = 20 cm
Luas tulang= 2.8274 > 1.82 Ok !!!
untuk Cu>5.51,dipakai nilai q minimum
Amin =0.25%*B*h = 4
dicoba dia. Tul (d) = 10 mm
jarak = 15 cm
Luas tulang= 10.472 > 4 Ok !!!
A'=0.2*Amin = 0.8
dicoba dia. Tul (d) = 6 mm
jarak = 20 cm
Luas tulang= 2.8274 > 0.8 Ok !!!
t*au kg/cm2
cm2
cm2
cm2
cm2
cm2
cm2
cm2
cm2
t