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KomunitasMahasiswaTeknikSipilUSMKelasKaryawan

PERHITUNGANPONDASI

PostedonMaret8,2010byhandoko10AnalisaDatadanPenyelidikanTanah

Pondasimerupakan struktur bawah yang berfungsi untukmeletakkan bangunandi atas tanahdanmeneruskanbebanketanahdasar.Untukituperludilaksanakanpenyelidikankondisitanahpadalokasiyangakandibangun.

DariHasilTesBoring(BoringLog)

Kedalaman0,00ms/d0,20mberupatanahuruganbatudansirtu.Kedalaman0,20ms/d3,00mlapisantanahberupajenislempungkelanauanberwarnaabuabu.Kedalaman3,00ms/d5,00mlapisantanahberupapasirkelanauanberwarnaabuabu.Kedalamanselanjutnyaberupalempungberwarnaabuabu.

DariHasilTesSondir

Sondirdilakukanpadalimatitiksondir,denganhasilsebagaiberikut:

Titiksondir1(S1)tanahkeras(qc=55kg/cm2)dikedalaman18,60m.

Titiksondir2(S2)tanahkeras(qc=50kg/cm2)dikedalaman18,60m.

Titiksondir3(S3)tanahkeras(qc=50kg/cm2)dikedalaman19,60m.

Titiksondir4(S4)tanahkeras(qc=50kg/cm2)dikedalaman18,60m.

Titiksondir5(S5)tanahkeras(qc=50kg/cm2)dikedalaman19,40m.

Dilihatdarilimamacamanalisadatatanahdiatas,makalapisantanahkerasyangpalingdalamyaitupadakedalaman19,60mberupatanahlempungkelanauanberwarnaabuabu.

PemilihanJenisPondasi

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Dalammerencanakansuatustrukturbawahdarikonstruksibangunandapatdigunakanbeberapamacamtipepondasi,pemilihantipepondasididasarkanpadahalhalsebagaiberikut:

FungsibangunanatasBesarnyabebandanberatdaribangunanatasKeadaantanahdimanabangunantersebutakandidirikanJumlahbiayayangdikeluarkan

Pemilihantipepondasidalamperencanaaninitidakterlepasdarihalhaltersebutdiatas.Daripertimbanganhasilpenyelidikantanahdariaspekketinggiangedungdanbebandaristrukturdiatasnya,makajenispondasiyangdigunakanadalahpondasitiangpancangdenganpenampangbebentuklingkaran.

Adapunspesifikasidaritiangpancangtersebutadalah:

Mutubeton(fc)=25MpaMutubaja(fy)=400MpaUkuran=50cmLuaspenampang=1962,5cm2Keliling=157cm

PerhitunganDayaDukungTiangPancang

BerdasarkanKekuatanBahan

Tegangantekanbetonyangdiijinkanyaitu:

b=0,33.fc;fc=25Mpa=250kg/cm2

b=0,33.250=82,5kg/cm2

Ptiang=b.Atiang

Ptiang=82,5.1962,5=161906,25kg=161,906t

dimana:Ptiang=Kekuatanpikultiangyangdiijinkan

b=Tegangantekantiangterhadappenumbukan

Atiang=Luaspenampangtiangpancang

BerdasarkanHasilSondir

Dayadukungtiangdihitungdenganformulasebagaiberikut:

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(https://sipilusm.files.wordpress.com/2010/03/clip_image002.gif)

Dimana:qc=Nilaikonushasilsondir(kg/cm2)

Ap=Luaspermukaantiang(cm2)

Tf=Totalfriction(kg/cm)

As=Kelilingtiangpancang(cm)

DatahasilsondirS3untukkedalaman19,60m,didapatkan:

qc=50kg/cm2

Tf=1376kg/cm

Ptiang=(https://sipilusm.files.wordpress.com/2010/03/clip_image004.gif)

=75914,733kg=75,915t

Sehinggadayadukungyangmenentukanadalahdayadukungberdasrkandatasondir,Ptiang=75,915t~76t.

MenentukanJumlahTiangPancang

Untukmenentukanjumlahtiangpancangyangdibutuhkandigunakanrumusacuansebagaiberikut:

(https://sipilusm.files.wordpress.com/2010/03/clip_image0021.gif)

Dimana:n=jumlahtiangpancangyangdibutuhkan

P=gayavertikal(t)

Ptiang=dayadukung1tiang(t)

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(https://sipilusm.files.wordpress.com/2010/03/clip_image0041.gif)

Gambar4.37DenahPondasi

Tabel4.39PerhitunganJumlahTiangPancang

Tiang P(t)Ptiang(t)

n Pembulatan

P1 139.897 76 1.841 6

P2 244.489 76 3.217 6

P3 221.046 76 2.909 4

P4 182.926 76 2.407 6

P5 155.869 76 2.051 6

P6 223.195 76 2.937 4

P7 337.106 76 4.436 9

P8 307.909 76 4.051 6

P9 294.281 76 3.872 6

211.856 76 2.788 6

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P10

P11 220.124 76 2.896 4

P12 318.799 76 4.195 6

P13 218.344 76 2.873 6

P14 182.241 76 2.398 4

P15 213.336 76 2.807 4

P16 196.017 76 2.579 4

P17 133.608 76 1.758 4

P18 234.393 76 3.084 6

P19 282.346 76 3.715 6

P20 185.102 76 2.436 4

P21 130.565 76 1.718 4

P22 230.095 76 3.028 6

P23 270.542 76 3.560 6

P24 160.972 76 2.118 4

P25 136.840 76 1.801 4

P26 241.257 76 3.174 6

P27 289.285 76 3.806 6

P28 157.370 76 2.071 4

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P29 95.562 76 1.257 4

P30 146.670 76 1.930 4

P31 167.866 76 2.209 4

P32 96.012 76 1.263 4

MenghitungEfisiensiKelompokTiangPancang

(https://sipilusm.files.wordpress.com/2010/03/clip_image006.gif)

dimana:m=Jumlahbaris

n=Jumlahtiangsatubaris

=Arctan (https://sipilusm.files.wordpress.com/2010/03/clip_image008.gif)dalamderajat

d=Diametertiang(cm)

S=Jarakantartiang(cm)

syaratjarakantartiang

(https://sipilusm.files.wordpress.com/2010/03/clip_image010.gif)atau

(https://sipilusm.files.wordpress.com/2010/03/clip_image012.gif)

syaratjaraktiangketepi

(https://sipilusm.files.wordpress.com/2010/03/clip_image014.gif)

Tipetipepoer(pilecap)yangdigunakandapatdilihatpadagambardibawahini:

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(https://sipilusm.files.wordpress.com/2010/03/clip_image016.gif)

Gambar4.38TipePondasi

Tabel4.40PerhitunganEfisiensiKelompokTiang

Poer d(cm)S(cm) m n q (https://sipilusm.files.wordpress.com/2010/03/clip_image018.gif)

P1 50 125 2 2 21.801 0.242

P2 50 125 2 3 21.801 0.242

P3 50 125 3 3 21.801 0.242

Tabel4.41PerhitunganDayaDukungKelompokTiang

Poer efisiensi Ptiang(ton)

satutiang(ton)

jumlahtiang

dayadukunggroup(ton) cek

Tipe1 0.758 76 57.590 4 230.360 >223.195ton

Tipe2 0.717 76 54.522 6 327.129 >318.799ton

Tipe3 0.677 76 51.453 9 463.079 >337.106ton

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PerhitunganBebanMaksimumYangDiterimaOlehTiang

(https://sipilusm.files.wordpress.com/2010/03/clip_image022.gif)

dimana:

Pmak=Bebanmaksimumyangditerimaolehtiangpancang(t)

SPv=Jumlahtotalbeban(t)

Mx=Momenyangbekerjapadabidangyangtegaklurussumbux

My=Momenyangbekerjapadabidangyangtegaklurussumbuy

n=Banyaknyatiangpancangdalamkelompoktiangpancang(pilegroup)

Xmak=Absisterjauhtiangpancangterhadaptitikberatkelompoktiang

Ymak=Ordinatterjauhtiangpancangterhadaptitikberatkelompoktiang

nx=Banyaknyatiangpancangdalamsatubarisdalamarahsumbux

ny=Banyaknyatiangpancangdalamsatubarisdalamarahsumbuy

Sx2=Jumlahkuadratabsisabsistiangpancang(m2)

Sy2=Jumlahkuadratordinatordinattiangpancang(m2)

PondasiTipe1

(https://sipilusm.files.wordpress.com/2010/03/clip_image024.gif)

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Bebanmaksimumyangditerimapadapondasitipe1

SPv=223,195t

Mx=1,671tm

My=0,455tm

Xmak=62,5cm=0,625m

Ymak=62,5cm=0,625m

Sx2=(0,6252)+(0,6252)

=0,781m2

Sy2=(0,6252)+(0,6252)

=0,781m2

n=4

nx=2

ny=2

Pmak=(https://sipilusm.files.wordpress.com/2010/03/clip_image026.gif)

=56,649t

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(https://sipilusm.files.wordpress.com/2010/03/clip_image028.gif)

SPv=318,799t

Mx=0,096tm

My=0,058tm

Xmak=125cm=1,25m

Ymak=62,5cm=0,625m

Sx2=(1,252)+(1,252)

=3,125m2

Sy2=(0,6252)+(0,6252)

=0,781m2

n=6

nx=3

ny=2

Pmak=(https://sipilusm.files.wordpress.com/2010/03/clip_image030.gif)

=53,179t

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Bebanmaksimumyangditerimapadapondasitipe3

(https://sipilusm.files.wordpress.com/2010/03/clip_image032.gif)

SPv=337,106t

Mx=0,022tm

My=2,062tm

Xmak=125cm=1,25m

Ymak=125cm=1,25m

Sx2=(1,252)+(1,252)

=3,125m2

Sy2=(1,252)+(1,252)

=3,125m2

n=9

nx=3

ny=3

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Pmak=(https://sipilusm.files.wordpress.com/2010/03/clip_image034.gif)

=37,734t

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=14,31t/m2

=1,431kg/cm2

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L=6m

(https://sipilusm.files.wordpress.com/2010/03/clip_image060.gif)

(https://sipilusm.files.wordpress.com/2010/03/clip_image062.gif)

(https://sipilusm.files.wordpress.com/2010/03/clip_image064.gif)

(https://sipilusm.files.wordpress.com/2010/03/clip_image066.gif)

Didapatkan:a=(https://sipilusm.files.wordpress.com/2010/03/clip_image068.gif)

=1,243m

M1= (https://sipilusm.files.wordpress.com/2010/03/clip_image070.gif)

= (https://sipilusm.files.wordpress.com/2010/03/clip_image072.gif)

=363,86kgm

Dmak= (https://sipilusm.files.wordpress.com/2010/03/clip_image074.gif)

= (https://sipilusm.files.wordpress.com/2010/03/clip_image076.gif)

=1413kg

KondisiII(SatuTumpuan)

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(https://sipilusm.files.wordpress.com/2010/03/clip_image078.gif)

Gambar4.40KondisiPengangkatan2danMomenyangDitimbulkan

(https://sipilusm.files.wordpress.com/2010/03/clip_image080.gif)

(https://sipilusm.files.wordpress.com/2010/03/clip_image082.gif)

(https://sipilusm.files.wordpress.com/2010/03/clip_image084.gif)

(https://sipilusm.files.wordpress.com/2010/03/clip_image086.gif)

(https://sipilusm.files.wordpress.com/2010/03/clip_image088.gif)(https://sipilusm.files.wordpress.com/2010/03/clip_image090.gif)

(https://sipilusm.files.wordpress.com/2010/03/clip_image092.gif)

(https://sipilusm.files.wordpress.com/2010/03/clip_image094.gif)

(https://sipilusm.files.wordpress.com/2010/03/clip_image096.gif)

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(https://sipilusm.files.wordpress.com/2010/03/clip_image098.gif)

(https://sipilusm.files.wordpress.com/2010/03/clip_image0521.gif)

(https://sipilusm.files.wordpress.com/2010/03/clip_image101.gif)

(https://sipilusm.files.wordpress.com/2010/03/clip_image103.gif)

Maka:

(https://sipilusm.files.wordpress.com/2010/03/clip_image105.gif)

(https://sipilusm.files.wordpress.com/2010/03/clip_image107.gif)

(https://sipilusm.files.wordpress.com/2010/03/clip_image109.gif)

Didapatkan:a=(https://sipilusm.files.wordpress.com/2010/03/clip_image111.gif)

=1,75m

M1= (https://sipilusm.files.wordpress.com/2010/03/clip_image0701.gif)

= (https://sipilusm.files.wordpress.com/2010/03/clip_image113.gif)

=721,219kgm

D1= (https://sipilusm.files.wordpress.com/2010/03/clip_image115.gif)

= (https://sipilusm.files.wordpress.com/2010/03/clip_image117.gif)

=831,176kg

Darikeduakondisidiatasdiambilyangpalingmenentukanyaitu:

M=721,219kgm

D=1413kg

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(https://sipilusm.files.wordpress.com/2010/03/clip_image119.gif)

Gambar4.41PenampangTiangPancang

Datayangdigunakan:

Dimensitiang=50cm

Beratjenisbeton=2,4t/m3

fc=25Mpa

fy=400Mpa

h=500mm

p=70mm

tulangan=22mm

sengkang=8mm

d=hpsengkangtulangan

=50070811=411mm

d=p+sengkang+tulangan

=70+8+11=89mm

4.8.8.3TulanganMemanjangTiangPancang

Mu=721,219kgm=7,212kNm

(https://sipilusm.files.wordpress.com/2010/03/clip_image121.gif)kN/m2

(https://sipilusm.files.wordpress.com/2010/03/clip_image123.gif)

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(https://sipilusm.files.wordpress.com/2010/03/clip_image125.gif)

(https://sipilusm.files.wordpress.com/2010/03/clip_image127.gif)

Denganrumusabcdidapatkannilai=0,00027

Pemeriksaansyaratrasiopenulangan(min

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(https://sipilusm.files.wordpress.com/2010/03/clip_image139.gif)

Ec=4700(fc)0.5=23500Mpa

(https://sipilusm.files.wordpress.com/2010/03/clip_image141.gif)

(https://sipilusm.files.wordpress.com/2010/03/clip_image143.gif)

Pu=56,649T=566,49KN

(https://sipilusm.files.wordpress.com/2010/03/clip_image145.gif)

(https://sipilusm.files.wordpress.com/2010/03/clip_image147.gif)

(https://sipilusm.files.wordpress.com/2010/03/clip_image149.gif)

(https://sipilusm.files.wordpress.com/2010/03/clip_image151.gif)

(https://sipilusm.files.wordpress.com/2010/03/clip_image153.gif)

(https://sipilusm.files.wordpress.com/2010/03/clip_image155.gif)

(https://sipilusm.files.wordpress.com/2010/03/clip_image157.gif)

(https://sipilusm.files.wordpress.com/2010/03/clip_image159.gif)

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(https://sipilusm.files.wordpress.com/2010/03/clip_image161.gif)

(https://sipilusm.files.wordpress.com/2010/03/clip_image163.gif)

afvc:

vu= (https://sipilusm.files.wordpress.com/2010/03/clip_image173.gif)MPa

vc= (https://sipilusm.files.wordpress.com/2010/03/clip_image175.gif)MPa

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fvc=0,6x0,8333=0,50

vu

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Diametertulangan(D)=16mm

Tinggiefektifarahx(dx)=hpD

=70070.16

=622mm

(https://sipilusm.files.wordpress.com/2010/03/clip_image183.gif)kN/m2

(https://sipilusm.files.wordpress.com/2010/03/clip_image1231.gif)

(https://sipilusm.files.wordpress.com/2010/03/clip_image186.gif)

(https://sipilusm.files.wordpress.com/2010/03/clip_image188.gif)

Denganrumusabcdidapatkannilai=0,00294

Pemeriksaansyaratrasiopenulangan(min

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Mu=35,406tm=354,06kNm

Tebalpelat(h)=700mm

Penutupbeton(p)=70mm

Diametertulangan(D)=16mm

Tinggiefektifarahy(dy)=hpDxD

=7007016.16

=606mm

(https://sipilusm.files.wordpress.com/2010/03/clip_image194.gif)kN/m2

(https://sipilusm.files.wordpress.com/2010/03/clip_image1232.gif)

(https://sipilusm.files.wordpress.com/2010/03/clip_image196.gif)

(https://sipilusm.files.wordpress.com/2010/03/clip_image198.gif)

Denganrumusabcdidapatkannilai=0,0031

Pemeriksaansyaratrasiopenulangan(min

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=2121mm2

DipakaitulanganD1675(Asterpasang=2681mm2)

PileCapTipe2

(https://sipilusm.files.wordpress.com/2010/03/clip_image200.gif)

Penulangandidasarkanpada:

P1=Pmak=53,179t

Mx= (https://sipilusm.files.wordpress.com/2010/03/clip_image202.gif)=66,474tm

My= (https://sipilusm.files.wordpress.com/2010/03/clip_image204.gif)=33,237tm

PenulanganArahx

Mu=66,474tm=664,74kNm

Tebalpelat(h)=700mm

Penutupbeton(p)=70mm

Diametertulangan(D)=19mm

Tinggiefektifarahx(dx)=hpD

=70070.19

=620,5mm

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(https://sipilusm.files.wordpress.com/2010/03/clip_image206.gif)kN/m2

(https://sipilusm.files.wordpress.com/2010/03/clip_image1233.gif)

(https://sipilusm.files.wordpress.com/2010/03/clip_image208.gif)

(https://sipilusm.files.wordpress.com/2010/03/clip_image210.gif)

Denganrumusabcdidapatkannilai=0,0057

Pemeriksaansyaratrasiopenulangan(min

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Tinggiefektifarahy(dy)=hpDxD

=7007019.19

=601,5mm

(https://sipilusm.files.wordpress.com/2010/03/clip_image213.gif)kN/m2

(https://sipilusm.files.wordpress.com/2010/03/clip_image1234.gif)

(https://sipilusm.files.wordpress.com/2010/03/clip_image215.gif)

(https://sipilusm.files.wordpress.com/2010/03/clip_image217.gif)

Denganrumusabcdidapatkannilai=0,00295

Pemeriksaansyaratrasiopenulangan(min

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(https://sipilusm.files.wordpress.com/2010/03/clip_image219.gif)

PileCapTipe3

Penulangandidasarkanpada:

P1=Pmak=37,734t

Mx=My= (https://sipilusm.files.wordpress.com/2010/03/clip_image221.gif)=47,168tm

PenulanganArahx

Mu=47,168tm=471,68kNm

Tebalpelat(h)=700mm

Penutupbeton(p)=70mm

Diametertulangan(D)=19mm

Tinggiefektif(d)=hpD

=70070.19

=620,5mm

(https://sipilusm.files.wordpress.com/2010/03/clip_image223.gif)kN/m2

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(https://sipilusm.files.wordpress.com/2010/03/clip_image1235.gif)

(https://sipilusm.files.wordpress.com/2010/03/clip_image225.gif)

(https://sipilusm.files.wordpress.com/2010/03/clip_image227.gif)

Denganrumusabcdidapatkannilai=0,00398

Pemeriksaansyaratrasiopenulangan(min

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=601,5mm

(https://sipilusm.files.wordpress.com/2010/03/clip_image229.gif)kN/m2

(https://sipilusm.files.wordpress.com/2010/03/clip_image1236.gif)

(https://sipilusm.files.wordpress.com/2010/03/clip_image231.gif)

(https://sipilusm.files.wordpress.com/2010/03/clip_image233.gif)

Denganrumusabcdidapatkannilai=0,00424

Pemeriksaansyaratrasiopenulangan(min

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(https://sipilusm.files.wordpress.com/2010/03/clip_image235.gif)

Ukuransloof600x400cm

Datatanah:f=29,326o

c=0,115kg/cm2=1,15t/m2=11,5kPa

g=1,758t/m3

Tanahtersebutdidefinisikansebagaitanahsangatlunakkarenac

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q= (https://sipilusm.files.wordpress.com/2010/03/clip_image249.gif)=7,054t/m

PerhitunganGayaDalam

(https://sipilusm.files.wordpress.com/2010/03/clip_image251.gif)

Gambar4.43DenahTieBeam

PerhitungangayadalamuntukS1

Perhitunganmomen

Mtump= (https://sipilusm.files.wordpress.com/2010/03/clip_image253.gif)=

(https://sipilusm.files.wordpress.com/2010/03/clip_image255.gif)=26,388tm

Mlap= (https://sipilusm.files.wordpress.com/2010/03/clip_image257.gif)=(https://sipilusm.files.wordpress.com/2010/03/clip_image259.gif)=13,194tm

Perhitungangayalintang

Dtump= (https://sipilusm.files.wordpress.com/2010/03/clip_image261.gif)=(https://sipilusm.files.wordpress.com/2010/03/clip_image263.gif)=23,631t

Dlap=Dberjarak1/5Ldariujungbalok

= (https://sipilusm.files.wordpress.com/2010/03/clip_image265.gif)=14,179t

Untukperhitungangayadalamtiebeamlainnyaditabelkansebagaiberikut:

Tabel4.42GayaDalampadaTieBeam

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SloofL

(m)0.5*L 1/5*L

q

(kg/m)Momen GayaLintang

Mtump

(kgm)

Mlap.

(kgm)

Tump.

(kg)

Lap.

(kg)

S1 6.7 3.35 1.340 7.054 26.388 13.194 23.631 14.179

S2 5.45 2.725 1.090 7.054 17.460 8.730 19.222 11.533

S2 5.25 2.625 1.050 7.054 16.202 8.101 18.517 11.110

S3 8 4 1.600 7.054 37.621 18.811 28.216 16.930

S4 6 3 1.200 7.054 21.162 10.581 21.162 12.697

S5 3.5 1.75 0.700 7.054 7.201 3.600 12.345 7.407

S5 2.75 1.375 0.550 7.054 4.445 2.223 9.699 5.820

S5 2.5 1.25 0.500 7.054 3.674 1.837 8.818 5.291

PerhitunganPenulanganTieBeam

PenulanganS1

a)TulanganLentur

Mtump=26,388kgm=263,88kNm

Mlap=13,194kgm=131,94kNm

Tinggisloof(h)=600mm

Lebarsloof(b)=400mm

Penutupbeton(p)=40mm

Diametertulangan(D)=22mm

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Diametersengkang()=10mm

Tinggiefektif(d)=hpD

=6004010.22

=539mm

d=p++D

=40+12+.22

=61mm

fc=25Mpa

fy=400Mpa

TulanganTumpuan

Mu=263,88kNm

(https://sipilusm.files.wordpress.com/2010/03/clip_image267.gif)kN/m2

(https://sipilusm.files.wordpress.com/2010/03/clip_image1237.gif)

(https://sipilusm.files.wordpress.com/2010/03/clip_image269.gif)

(https://sipilusm.files.wordpress.com/2010/03/clip_image271.gif)

Denganrumusabcdidapatkannilai=0,0076

Pemeriksaansyaratrasiopenulangan(min

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karenamin

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(https://sipilusm.files.wordpress.com/2010/03/clip_image1312.gif)

karenamin

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Vu=23,631t=236309,00N

Vn= (https://sipilusm.files.wordpress.com/2010/03/clip_image279.gif)MPa

Vc=(https://sipilusm.files.wordpress.com/2010/03/clip_image281.gif)MPa

Vs=VnVc=393848,33179666,67=214181,67N

Periksavu>fvc:

vu= (https://sipilusm.files.wordpress.com/2010/03/clip_image283.gif)MPa

vc= (https://sipilusm.files.wordpress.com/2010/03/clip_image1751.gif)MPa

fvc=0,6x0,8333=0,50

vufvsmak:

fvs=vufvc=1,0960,50=0,596Mpa

fc=25MPafvsmaks=2,00(Tabelnilaifvsmaks,CUR1hal129)

fvs>fvsmakOK

Perencanaansengkang

(https://sipilusm.files.wordpress.com/2010/03/clip_image285.gif)mm2

Digunakantulangansengkang=10mm,luasduakakiAs=557mm2

(https://sipilusm.files.wordpress.com/2010/03/clip_image287.gif)mm

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smax= (https://sipilusm.files.wordpress.com/2010/03/clip_image289.gif)mm

Digunakantulangansengkang10150.

Sengkangminimumperlu=(https://sipilusm.files.wordpress.com/2010/03/clip_image291.gif)mm2

Luassengkangterpasang157mm2>50mm2

Tulangansengkang10150bolehdipakai.

TulanganGeserLapangan

Vu=14,178540t=141785,40N

Vn= (https://sipilusm.files.wordpress.com/2010/03/clip_image293.gif)MPa

Vc=(https://sipilusm.files.wordpress.com/2010/03/clip_image2811.gif)MPa

Vs=VnVc=236309,00179666,67=56642,33N

Periksavu>fvc:

vu= (https://sipilusm.files.wordpress.com/2010/03/clip_image296.gif)MPa

vc= (https://sipilusm.files.wordpress.com/2010/03/clip_image1752.gif)MPa

fvc=0,6x0,8333=0,50

vufvsmak:

fvs=vufvc=0,6580,50=0,158Mpa

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fc=25MPafvsmaks=2,00(Tabelnilaifvsmaks,CUR1hal129)

fvs>fvsmakOK

Perencanaansengkang

(https://sipilusm.files.wordpress.com/2010/03/clip_image299.gif)mm2

Digunakantulangansengkang=10mm,luasduakakiAs=157mm2

(https://sipilusm.files.wordpress.com/2010/03/clip_image301.gif)mm

smax= (https://sipilusm.files.wordpress.com/2010/03/clip_image2891.gif)mm

Digunakantulangansengkang10250.

Sengkangminimumperlu=(https://sipilusm.files.wordpress.com/2010/03/clip_image304.gif)mm2

Luassengkangterpasang226mm2>83,33mm2

Tulangansengkang10250bolehdipakai.

(https://sipilusm.files.wordpress.com/2010/03/clip_image306.gif)

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