standar pondDesign PondasiGudang Oli PH 4,5A. Data teknisGaya aksial Perlu/vertikal (Pu)=5706.4kgGaya aksial Perlu/horizontal (Ph)=0kgMomen perlu (M1)=70kgmf'c=21Mpafy=240MpaLebar kolom pondasi(b)=200mmTinggi kolom pondasi (h)=300mmB. Hasil Analisa300 mmLebar pondasi (B)=500mmTebal pondasi (d)=150mm200 mmTulangan=dia8 - 200Jumlah tul.per lebar pondasi=4bh150C. AnalisaData penyelidikan tanahg(Wet density)=1.289t/m3f(angle of internal friction)=4.5oc(cohesion)=0.05kg/cm2t(timbunan tanah merah)=0cmB=500Analisa Terzaghiqult = 1,3.c.Nc.+q.Nq+0,4.g.B.NgTabel Tersaghi untuk nilai :f,Nc,Nq,Ngf=05Nc=5.77.3Nq=11.6B=500Ng=00.5Untuk sudut geser (f)=4.5oNc=7.14Nq=1.54Ng=0.45qult = 1,3.c.Nc.+q.Nq+0,4.g.B.Ng=0.476kg/cm2B=500SF ( safety factor)=1.5qa tanah = qult/SF=0.317kg/cm2Daya dukung gelamf10-600=1.233kg/cm212330kg/m2Rencana jumlah gelam=2bhDaya dukung gelam totalf10-600=2.466kg/cm2qa tanah + gelam=2.783kg/cm2=0.2783134N/mm2Pu/B^2 r min =0.0005833333r min =1.4/FY=0.0005833333rb =b1*((0.85*f'c)/fy)+(600/(600+fy))=0.26321875>r =0.0033510322r max =0.75*rb=0.1974140625Lengan momen (a)=(Aperlu*fy)/(0.85*f'c*b)=6.758384196mmfMn =fAs*fy(d-0.5a)=7075167.02159446Nmm=707.5167021594kgm> Mu70kgmOk!

&R&9Mydoc/titip/jal/design/pondasi.xlsgelamf10-6mbbMuPud=gelamf10-6mPh

pond platDesign PondasiTanki Depo BBM Modul3 Blok VA. Data teknisGaya aksial Perlu/vertikal (Pu)=718.3333333333kgGaya aksial Perlu/horizontal (Ph)=0kgMomen perlu (Mu)=10kgmf'c=22.5Mpafy=240MpaLebar kolom (b)=150mmdimensi PondasiLebar pondasi (B)=500mmTebal pondasi (d)=100mmB. AnalisaBerat tangki=2000kgBerat minyak tanah=17430kg150Berat sendiri plat (t:10 cm)=2880kgBerat total=22310kg100Daya dukung tanah + gelam=18000kgBerat sisa (untuk satu kolom)=718.3333333333kgData penyelidikan tanahg(Wet density)=1.289t/m3f(angle of internal friction)=4.5oc(cohesion)=0.05kg/cm2500t(timbunan tanah merah)=0cmAnalisa Terzaghiqult = 1,3.c.Nc.+q.Nq+0,4.g.B.Ng125Tabel Tersaghi untuk nilai :f,Nc,Nq,Ngf=05Nc=5.77.3Nq=11.6300500Ng=00.5Untuk sudut geser (f)=4.5oNc=7.14Nq=1.54Ng=0.45500125panjang pon500qult = 1,3.c.Nc.+q.Nq+0,4.g.B.Ng=0.466kg/cm2lebar pon500mmSF ( safety factor)=1.5D gelam100mmqa tanah = qult/SF=0.311kg/cm2jml gelam arah x2bhDaya dukung gelamf10-600=0.02kg/cm2x125Rencana jumlah gelam=4bhy125Daya dukung gelam totalf10-600=0.08kg/cm2luas perlu62500qa tanah + gelam=0.391kg/cm2=0.03909468N/mm2jml gelam arah y2Pu/B^2 r =0.01048r max =0.75*rb=0.2008007812Lengan momen (a)=(Aperlu*fy)/(0.85*f'c*b)=13.151372549fMn =fAs*fy(d-0.5a)=9399233.35529412Nmm=939.9233355294kgm> Mu10kgmOk!

MuPub=B=d=gelamf10-6mB=bB=bgelamf10-6m

pond pompaDesign PondasiTanki Depo BBM Modul3 Blok Vtitik aA. Data teknisMomen perlu (Mu)=0kgmf'c=17.5Mpafy=240MpaDaya dukung tiang pancang=1351kgLebar kolom (b)=200mmdimensi PondasiLebar pondasi (B)=1000mmTebal pondasi (d)=200mmB. AnalisaBerat pipa + pompa=1531.9kgBerat air=1458.395kg200Berat total=2990.295kgDaya dukung T.Pancang=2702kg200Berat sisa (untuk satu kolom)=288.295kgGaya aksial Perlu/vertikal (Pu)=288.295kgData penyelidikan tanahg(Wet density)=1.289t/m3f(angle of internal friction)=4.5oc(cohesion)=0.05kg/cm21000t(timbunan tanah merah)=0cmAnalisa Terzaghiqult = 1,3.c.Nc.+q.Nq+0,4.g.B.Ng125Tabel Tersaghi untuk nilai :f,Nc,Nq,Ngf=05Nc=5.77.3Nq=11.63001000Ng=00.5Untuk sudut geser (f)=4.5oNc=7.14Nq=1.54Ng=0.451000125panjang pon500qult = 1,3.c.Nc.+q.Nq+0,4.g.B.Ng=0.469kg/cm2lebar pon500mmSF ( safety factor)=1.5D gelam100mmqa tanah = qult/SF=0.312kg/cm2jml gelam arah x2bhDaya dukung T. Listrik DPC-9-100=1.233kg/cm2x125Rencana jumlah T. Listrik=2bhy125Daya dukung T. Listrik total=2.466kg/cm2luas perlu62500qa tanah + T. Listrik=2.778kg/cm2=0.27784936N/mm2jml gelam arah y2Pu/B^2 r =0.00262r max =0.75*rb=0.1895117188Lengan momen (a)=(Aperlu*fy)/(0.85*f'c*b)=8.4544537815fMn =fAs*fy(d-0.5a)=19696307.1569748Nmm=1969.6307156975kgm> Mu0kgmOk!

MuPub=B=d=gelamf10-6mB=bB=bgelamf10-6m

pile cap1Design Pile Cap (Tanpa tulangan geser)A. Data teknisGaya aksial (b. mati+b. hidup) (Pu)=160000kgGaya aksial Perlu/horizontal (Ph)=0kgMomen perlu (M1)=70kgmMutu beton (K125 ,K175, K225)=225kg/cm2fy=320MpaLebar kolom pondasi(b)=60cmLebar tiang pancang(b')=35cmLebar pile cap (B)=220cmTebal pile cap (ht)=60cmPenutup beton (Pb)=7.5cm60B. Analisaa.Tebal pile cap dan penulanganBerat sendiri pile cap=6969.6kgBeban pertiang (ada 4tiang)=81742.4kg0.50.30.60.30.5Geser Ponsh=ht-Pb=52.5cmB=220luas bidang geser =4(b+h)*h=4(60+h)*htbpu =Pu/(4(b+h)*h) tertarik keatasP1 = P3=2560.5kgzztiang 2,4----> tertekan kebawahP2 = P4=2707.5kgGeser PonsB=300h=ht-Pb=26cmluas bidang geser =4(b+h)*h=4(20+h)*htbpu =Pu/(4(b+h)*h) 3.9Ok !!!

&R&9Mydoc/titip/jal/design/pondasi.xlsT. Pancang35x35MuPud=PhT. Pancang35x352111qtbb