m 2

Laporan Perhitungan Struktur

Peraturan dan Standar Perencanaan 1. Peraturan Perencanaan Tahan Gempa untuk Gedung SNI - PPTGIUG 2000 2. Tata Cara Perhitungan Struktur Beton Untuk Gedung SKSNI 02-2847-2002 3. Tata Cara Perencanaan Struktur Baja Untuk Bangunan Dengan Metode LRFD ITB-2000 4. Pedoman Pembebanan Indonesia untuk Gedung 1983 Referensi 1. Dewobroto, W., Aplikasi Rekayasa Konstruksi dengan SAP 2000, Elex Media Komputindo, Jakarta 2004 2. Wigroho, H. Y., Analisis dan Perancangan Struktur Frame menggunakan SAP 2000 versi 7.42, Andi Offset, Yogyakarta, Februari 1999 3 Kusuma, Gideon, Desain Struktur Rangka Beton Bertulang Di Daerah Rawan Gempa, Erlangga, Jakarta, 1993 4. Salmon, Charles.G. Struktur Baja Desain dan Perilaku 1 dan 2, Gramedia Pustaka Utama, 1996 5. Widodo, Respon Dinamik Struktur Elastik, UII Press, Yogyakarta, September 2001 Program Komputer Program Komputer yang digunakan untuk analisis desain Beton dan Baja adalah SAP 2000 v. 10.01dan Untuk pengolahan data dan perhitungan desain manual menggunakan program excel. Bahan Struktur 1. Beton Kuat beton yang disyaratkan , fc’ =

fc ' Modulus Elastisitas beton Ec = 4700. 2. Baja Tulangan Tulangan di hitung menggunakan BJTP (polos) < 13 mm Tulangan di hitung menggunakan BJTD(deform) =>13

20 Mpa 4 = 2,1.10 fy = fy =

Mpa 240 MPa 400 MPa

Asumsi yang Digunakan 1. Pemodelan struktur 3-D (space frame) dilakukan dengan program komputer 2. Efek P-delta diabaikan 3. Plat lantai dianggap sebagai diafragma sangat kaku pada bidangnya Pembebanan I. Beban pada Pelat Pelat lantai A. Beban Hidup Beban hidup (PPI’83 tabel 3.1)

: 250 kg/m

2

B. Beban Mati Beban mati lantai bangunan: Beton

: 2400

kg/m3

Keramik

: 25

Kg/m

2

1

Laporan Perhitungan Struktur 2

Spesi per cm tebal

: 21

Kg/m

Langit-langit dan penggantung

: 11

Kg/m2

288

Kg/m2

Beban mati pada plat lantai : - Beton Berat pasir tebal 5 cm

: 1x1x0,12x2400

Kg/m2

0,05 x 15 = 75

- Keramik

: 1 x 1 x 25

25

Kg/m2

- Spesi Beban mati pada plat lantai

: (0,03) x 21

63

Kg/m

: 451

2

Kg/cm2

Pelat Atap A. Beban Hidup

2

Laporan Perhitungan Struktur

: 100 kg/m

Beban hidup (PPI’83 tabel 3.1)

2

B. Beban Mati Beban mati lantai bangunan: Beton

: 2400

kg/m3

Keramik

: 25

Kg/m2

Spesi per cm tebal

: 21

Kg/m2

Langit-langit dan penggantung

: 11

Kg/m

240

Kg/m2

63

Kg/m

2

Beban mati pada plat lantai : - Beton

: 1x1x0,10x2400

- Spesi : (0,03) x 21 Beban mati pada plat lantai

303 Kg/cm

2

2

3

Laporan Perhitungan Struktur

II. Beban Akibat Atap A. Beban Mati Penutup Atap Genting dengan reng usuk (PPI’83 tabel 2.1): Luas Atap = 4 X 5 50 X 20 III. Beban Akibat Dinding : 250 kg/m2 Beban Bata (PPI’83 tabel 2.1) Tinggi Dinding = 4 x 250 = 1000 Kg/m

2 50 Kg/m

20 m² 1000 Kg

= =

IV. Beban Gempa Perhitungan Gaya Geser Gempa Pembatasan Waktu Getar T<ζ.n , Berada di Wilayah Gempa 4

ζ =

3/4

Te = 0,06.H = 0.286746523 < C=0.85/T = 2.96429052 Faktor keutamaan (I) dan faktor respon gempa (R) I = 1 untuk Penghunian, (SNI - PPTGIUG 2000, Tabel 3) R = 3,5 (SNI - PPTGIUG 2000, Tabel 3) Gaya geser dasar horizontal akibat gempa V = ((C1.I)/R).Wt = 525.3933118

Fi

=

Wi . hi . (V Wi hi . ∑

0.17

n=

0.51

)

4

2

Laporan Perhitungan Struktur

Tinggi (m) (h)

Lantai 2 1

Berat (KN) (w) w*h Fx (Efektif) Fy (30% Fx) 234.68116 1889.1833 287.60698 86.28209285 385.6617448 1561.9301 237.78634 71.3359007 620.3429048 3451.1134

8.05 4.05

Kombinasi Pembebanan

Semua Komponen struktur dirancang memiliki kekuatan minimal sebesar kekuatan yang dihitung berdasarkan pilihan beban kombinasi berikut ini; 1. Kombinasi 1 1,2D + 1,6 L 2. Kombinasi 2 1,05D + 0,6 L + 1,05E 3. Kombinasi 3 1,05D + 0,6 L - 1,05E dengan D = Dead Load (Mati) L = Live Load (Hidup) E = Earth Quake (Gempa) Dimensi Frame Balok :

Kolom:

B1 B2 B3=BL K1 K2 KA Kø

= = = = = = =

200 200 150 250 200 150 200

X X X X X X X

350 300 150

mm mm mm

250 250 150 200

mm mm mm mm

`

5

Laporan Perhitungan Struktur

Plat lantai : Pelat lantai menggunakan shell yang dapat menggantikan ditribusi beban segitiga dan trapesium

Perencanaan Frame Bangunan

6

Laporan Perhitungan Struktur

Perencanaan Balok Berikut ini adalah hasil desain tulangan longitudinal maupun tulangan geser diperoleh data Dari concrete frame design SAP 2000 v.10.01, diambil contoh perhitungan desain balok B2 ukuran B20X30, dan untuk perhitungan desain balok lainnya kami tabelkan 1. Daerah tumpuan Dari sap 2000 v.10.01 diperoleh data luas tulangan untuk elemen tersebut :

a. Tulangan longitudinal Tulangan perlu bagian atas A = Digunakan

114 3 P3x

Cek Apakai > Aperlu Tulangan perlu bagian bawah A = Digunakan Cek Apakai > Aperlu b. Tulangan geser Av s

.

Digunakan tulangan Diameter

perlu

56 2 P2x

mm2 12 113.14286 = 339.42857 >

339.4285714 mm2 114 Ok

mm2 12 113.14286 = 226.28571 >

226.2857143 mm2 56 Ok

0.001 mm2/mm 8 Luas

100.57143 mm2 7

Laporan Perhitungan Struktur

jarak

Cek

Av . s

Aktual =

.

perlu <

Av s

100.5714286 100 Av. s

Aktual =

100 mm =

1.0057143

0.001

<

mm2/mm 1.005714286 Ok

2. Daerah lapangan Dari sap 2000 v.10.01 diperoleh data luas tulangan untuk elemen tersebut :

a. Tulangan longitudinal Tulangan perlu bagian atas A = Digunakan

28 2 P2x

Cek Apakai > Aperlu Tulangan perlu bagian bawah A = Digunakan Cek Apakai > Aperlu b. Tulangan geser Av s

.

perlu

58 3 P3x

mm2 12 113.14286 = 226.28571 >

226.2857143 mm2 28 Ok

mm2 12 113.14286 = 339.42857 >

339.4285714 mm2 58 Ok

0.003 mm2/mm

8

Laporan Perhitungan Struktur

Digunakan tulangan Diameter

Cek

Av . s

Aktual =

.

perlu <

Av s

8 Luas jarak 100.5714286 = 150 Av. s

Aktual =

100.57143 mm2 150 mm 0.6704762

0.003

<

mm2/mm 0.67047619 Ok

Perencanaan Kolom Berikut ini adalah hasil desain tulangan longitudinal maupun tulangan geser pada kolom diperoleh data Dari concrete frame design SAP 2000 v.10.01, diambil contoh perhitungan desain kolom K1 ukuran 25x25, dan untuk perhitungan desain kolom lainnya kami tabelkan

a. Tulangan longitudinal Tulangan perlu bagian atas A = Digunakan Cek Apakai > Aperlu

663 8 P8x

mm2 12 113.14286 = 905.14286 >

905.1428571 mm2 663 Ok

9

Laporan Perhitungan Struktur

b. Tulangan geser Av s

.

perlu

0.0001 mm2/mm

Digunakan tulangan Diameter Av . s

Aktual =

.

perlu <

Av s

Cek

8 Luas jarak 100.5714286 = 100 Av. s

100.57143 mm2 100 mm 1.0057143

0.0001 <

Aktual =

mm2/mm 1.005714286 Ok

Perencanaan Pondasi Berikut ini adalah contoh perhitungan pondasi, diambil gaya aksial maksimum pada setiap kolomnya, diambil contoh perhitungan pondasi P1 , untuk perhitungan yang lain kami tabelkan, gtanah 18 KN/m3 stanah 150 KN/m2 fc’ 20 MPa fy 400 MPa Kedalaman tanah 2m Jenis fondasi Telapak H (tebal) asumsi 0.2 m Tabel data analisis gaya-gaya Dalam TABLE: Element Forces - Frames Frame

Station 99

OutputCase 0 COMB1

CaseType Combination

P

M3

106.97

0.2

Desain Tebal Pondasi Mn = (Me portal memanjang) + (0,3

× Me portal melintang)

Pn = Plt.1 portal memanjang + Plt.1 portal melintang

e =

Mn Pn

0.2 106.97

0.001869683

σ neto tanah = σijin tanah – {γ tanah.(Z-h)}-{γ beton. h} B= Lebar = 1m L = Panjang = 1m 6e ⎞ ⎛ ⎜1 ± ⎟

m =

131.4 KN/m2

10

Laporan Perhitungan Struktur

Pn A

q=

6e ⎞ ⎛ ⎜1 ± ⎟ L ⎠ ⎝

×

q max = 162,976 KN/m2 q min = 139,336 KN/m2 Cek geser satu arah qc = 0,5 (q max + qmin) = d = h - pb – 0.5.Øtulangan = qu3 =

⎧ ⎪⎪ Mu. + ⎨ ⎪ ⎪⎩

Pn A

106.97 KN/m2 0.1235 m

(d

⎬ ⎪ ⎪⎭

107.5664 KN/m2

= m = (0,5.L) – d – (0,5.h kolom)

0.2515 m

Vu =

⎛ q max + qu 3 ⎞ ⎜ ⎟.m.L 2 ⎝ ⎠

=

27.128852

KN

Vc =

1 6

=

92.051465

KN

f' c . L.d

0, 6 Vc = θ. Vc > Vu =

55.23087904 55.23087904 <

Cek geser dua arah b0 = 2 × {(d + h kolom

×

) + (d

KN 27.128852

+ b kolom

sisi panjang pondasi = sisi pendek pondasi

βc = Vu = qc

⎫

) ⎪⎪

+ 0 , 5 . h kolom 1 .b 3 l 12

{(B

× L

) − ((d

Vc1 = ⎛⎜ 1 + 1⎞⎟. 1 f' c . b0. d ⎜β ⎟ 6 ⎝ c ⎠

)} =

1.394

). (d

))}

+ b kolom

KN =

256.63948

KN

=

256.63948

KN

Diantara Vc1 dan Vc2 ambil yang terkecil Vpakai θ. Vc > Vu = 153.9836908 >

256.63948 94.045109

KN

Vc2 =

1 3

f' c . b0. d

m

1

+ h kolom

= 94.04510907

Ok

Ok

11

Laporan Perhitungan Struktur

Perencanaan Pelat Berikut ini adalah contoh perhitungan pelat tersebut Beban Ultimit Qu =1,2Wd + 1,6Wl = =

5.412 + 9.412 KN/m2

Pelat Tipe A Sisi Terpendek Lx = Sisi Terpanjang Ly =

3 3.05 3.05 Ly . = 3 Lx Sehingga Didapat Nilai Koofisien Momen

4

m m =

1.02 Mlx = Mltx = Mly = Mty = 4 KNm 4 KNm

Mlx = -Mtx = 0,001.Qu. lx² . clx = Mly = -Mty = 0,001.Qu. lx² . clx =

44 44 44 44

Perhitungan Tulangan Mlx = -Mtx 4 0.8

Mu .

φ

d = hpelat - pb - 0,5Ø = fc' = fy =

ρ

ρ

=

min

b

=

1,4 fy

4.66

= 0 , 00583

perlu

n

=

=

Mu / φ b .d 2

fy

=

m

=

0.043006

= 0 , 75 . ρ b =

max

R

KNm

mm Mpa Mpa

⎛ ⎞ 0 , 85 . fc ' 600 ⎟⎟ . β 1 .⎜⎜ fy ⎝ 600 + fy ⎠

ρ

ρ

95 20 240 1,4 240

=

=

0 , 85

. fc '

⎡ ⎢1 − ⎢⎣ ρperlu

1 m

0.0322545

=

0.315636

=

14.117647

1 −

2 .R

n

fy

.m

⎤ ⎥ ⎥⎦

= 0.0021846

< ρmin

12

Laporan Perhitungan Struktur

maka digunakan

1,33rperlu

0.002905559

Asperlu = ρ.b.d =

276.0281084 mm2

Digunakan tulangan Jarak tulangan :

As

Spakai ≤

Digunakan

8 Luas

As

φ

.b

50.285714 mm2

50.285714 1000 276.0281084 = 182.17606 mm

=

perlu

8 PAs ada =

As S

Ce As ada > As Perlu =

150 mm φ

.b

=

mm2

335.2381

pakai

335.2380952 >

276.02811 mm2

Ok

Cek kapasitas lentur arah x: As ada . fy 0 , 85 . fc '. b

a =

Mn = As.fy.(d-a/2) =

7.45303587 KNm

Mu = 0,8

6.1963902 KNm

1,33

Mu pakai = 7.45303587

Cek Mn > Mu

= 4.7327731

6.1963902 KNm > 6.1963902

Ok

Perhitungan Tulangan Mly = -Mty Mu .

φ d = hpelat - pb - 0,5Ø - Ø =

fc' = fy =

ρ ρ

b

=

min

=

4 0.8 87 20 240

1, 4 1, 4 = fy 240

=

4.66

KNm

mm Mpa Mpa

= 0 , 00583

⎛ ⎞ 0 , 85 . fc ' 600 ⎟⎟ . β 1 .⎜⎜ fy ⎝ 600 + fy ⎠ ρ max = 0 , 75 . ρ b =

=

0.043006 0.0322545

13

ρ

R

perlu

=

maka digunakan

Mu / φ b .d 2

=

=

0.6155291

=

14.117647

fy

=

m

ρ

n

Laporan Perhitungan Struktur

ρ

,

max

0 , 85

. fc '

⎡ ⎢1 − ⎢⎣ ρperlu

1 m

2 .R

1 −

n

.m

fy

⎤ ⎥ ⎥⎦

< ρmin

1,33rperlu

0.003475153

Asperlu = ρ.b.d =

302.3383039 mm2

Digunakan tulangan Jarak tulangan : Spakai ≤

Digunakan

= 0.0026129

8 Luas

As As

φ

.b

perlu

50.285714

50.285714 1000 302.3383039 = 166.32267 mm

=

8 PAs ada =

As S

Ce As ada > As Perlu =

150 mm φ

.b

=

335.2381

mm2

pakai

335.2380952 >

302.3383 mm2

Ok

Cek kapasitas lentur arah x: a =

As ada . fy 0 , 85 . fc '. b

Mn = As.fy.(d-a/2) = 1,33

Cek Mn > Mu

Mu = 0,8

Mu pakai = 6.809378727

= 4.7327731

6.809378727 KNm 6.1963902 KNm 6.1963902 KNm > 6.1963902

Ok

Perencanaan Sloof Pada struktur ini digunakan sloof ukuran S (20x30) untuk contoh perhitungannya sama seperti perhitungan balok diatas. Hasil hitungan langsung kami tabelkan

14

TABLE: Concrete Design 1 - Beam Summary Data - ACI 318-99

Tumpuan

Section

b

h As perlu mm²

Atas bawah

B1 B1

Lapangan

200 350 200 350 b

8

B1 B1

200 350 200 350

Tumpuan

Section

b

B2 B2

Lapangan

h As perlu

200 300 200 300 b

mm²

B2 B2

200 300 200 300

Tumpuan

Section

b

B3 B3

Lapangan

h As perlu

150 150 150 150 b

B3 B3

Luas mm²

12 113.14 12 113.14 Ø

Luas

mm

mm²

12 113.14 12 113.14 Ø

Luas

mm

mm²

12 113.14 12 113.14 Ø

Luas

mm

mm²

32 16

h As perlu mm²

Atas bawah

Ø mm

28 58

mm²

Atas bawah

12 113.14 12 113.14

114 56

h As perlu

Atas bawah

mm²

126 275

mm²

Atas bawah

Luas

396 256

h As perlu

Atas bawah

Ø mm

150 150 150 150

12 113.14 12 113.14 Ø

Luas

mm

mm²

8 10

12 113.14 12 113.14

n As Aktual

Cek

di Pasang

mm²

mm²/mm

5 565.71429 Aman 3 339.42857 Aman n As Aktual

Cek

5 P3 P-

12 12

di Pasang

mm²

Cek

3 P5 P-

12 12

di Pasang

mm²

Cek

3 P2 P-

12 12

di Pasang

mm²

Cek

2 P3 P-

12 12

di Pasang

mm²

Av/S Perlu 0.001 0.215 Av / S 0.003 0.215 Av/S Perlu mm²/mm

2 226.28571 Aman 2 226.28571 Aman n As Aktual

0.001 0.001

mm²/mm

2 226.28571 Aman 3 339.42857 Aman n As Aktual

Av / S

mm²/mm

3 339.42857 Aman 2 226.28571 Aman n As Aktual

0.215 0.215

mm²/mm

3 339.42857 Aman 5 565.71429 Aman n As Aktual

Av/S Perlu

Cek

2 P2 P-

12 12

di Pasang

mm²

0.001 0.001 Av / S mm²/mm

2 226.28571 Aman 2 226.28571 Aman

2 P2 P-

12 12

0.001 0.001

Ø Luas jarak Av/S Aktual Cek mm

mm²

8 101 8 101

mm

100 1.00571429 Aman 100 1.00571429 Aman

mm²

8 101 8 101

mm

mm²

150 0.67047619 Aman 150 0.67047619 Aman

8 101 8 101

mm

mm²

100 1.00571429 Aman 100 1.00571429 Aman

8 101 8 101

mm

mm²

8 101 8 101

mm²

100 1.00571429 Aman 100 1.00571429 Aman

8 101 8 101

mm

- 150 - 150

di Pasang P P

8 8

- 100 - 100

P P

8 8

- 150 - 150

di Pasang

mm²/mm

P P

8 8

- 100 - 100

di Pasang

Ø Luas jarak mm

8 8

di Pasang

150 0.67047619 Aman 150 0.67047619 Aman

mm

P P

mm²/mm

Ø Luas jarak Av/S Aktual Cek mm

- 100 - 100

mm²/mm

Ø Luas jarak mm

8 8

mm²/mm

Ø Luas jarak Av/S Aktual Cek mm

P P

di Pasang

Ø Luas jarak mm

di Pasang

mm²/mm

mm²/mm

150 0.67047619 Aman 150 0.67047619 Aman

P P

8 8

- 150 - 150

TABLE: Concrete Design 1 - Column Summary Data - ACI 318-99

b

h As perlu mm²

Tumpuan Lapangan

K1 K1

250 250 250 250 b

K2 K2

h As perlu

200 250 200 250 b

KP KP

h As perlu

150 150 150 150 b

Kø Kø

12 113.14 12 113.14 Ø

Luas

mm

mm²

12 113.14 12 113.14 Ø

Luas

mm

mm²

225 225

h As perlu mm²

Tumpuan Lapangan

mm²

500 500

mm²

Tumpuan Lapangan

Luas

663 663

mm²

Tumpuan Lapangan

Ø mm

200 200 200 200

12 113.14 12 113.14 Ø

Luas

mm

mm²

314 314

12 113.14 12 113.14

n As Aktual

Cek

di Pasang

mm²

mm²/mm

8 905.14286 Aman 8 905.14286 Aman n As Aktual

Cek

8 P8 P-

12 12

di Pasang

mm²

Cek

4 P4 P-

12 12

di Pasang

mm²

Av/S Perlu 0.0001 0.0001 Av/S Perlu mm²/mm

4 452.57143 Aman 4 452.57143 Aman n As Aktual

0.0001 0.0001

mm²/mm

6 678.85714 Aman 6 678.85714 Aman n As Aktual

Av/S Perlu

Cek

4 P4 P-

12 12

di Pasang

mm²

0.0001 0.0001 Av/S Perlu mm²/mm

4 452.57143 Aman 4 452.57143 Aman

4 P4 P-

12 12

0.0001 0.0001

Ø Luas jarak Av/S Aktual Cek mm

mm²

8 101 8 101

mm

100 1.00571429 Aman 100 1.00571429 Aman

Ø Luas jarak Av/S Aktual Cek mm

mm²

8 101 8 101

mm

mm²

100 1.00571429 Aman 100 1.00571429 Aman

8 101 8 101

mm

mm²

150 0.67047619 Aman 150 0.67047619 Aman

8 101 8 101

mm

8 8

- 100 - 100

di Pasang P P

8 8

- 100 - 100

di Pasang

mm²/mm

Ø Luas jarak Av/S Aktual Cek mm

P P

mm²/mm

Ø Luas jarak Av/S Aktual Cek mm

di Pasang

mm²/mm

P P

8 8

- 150 - 150

di Pasang

mm²/mm

100 1.00571429 Aman 100 1.00571429 Aman

P P

8 8

- 100 - 100

TABLE: Concrete Design 1 - Sloof Summary Data - ACI 318-99

Tumpuan

Section

b

h As perlu mm²

Atas bawah

S S

Lapangan

200 300 200 300 b

h

128 63 As perlu mm²

Atas bawah

S S

200 300 200 300

45 57

Ø

Luas

mm

mm²

10 78.571 10 78.571 Ø

Luas

mm

mm²

10 78.571 10 78.571

n As Aktual

Cek

di Pasang

mm²

mm²/mm

2 157.14286 Aman 2 157.14286 Aman n As Aktual

Av/S Perlu

Cek

2 P2 P-

10 10

di Pasang

mm²

2 157.14286 Aman 2 157.14286 Aman

0.001 0.001 Av / S mm²/mm

2 P2 P-

10 10

0.001 0.001

Ø Luas jarak Av/S Aktual Cek mm

mm²

8 101 8 101

mm

150 0.67047619 Aman 150 0.67047619 Aman

mm²

8 101 8 101

mm

P P

8 8

- 150 - 150

di Pasang

Ø Luas jarak mm

di Pasang

mm²/mm

mm²/mm

150 0.67047619 Aman 150 0.67047619 Aman

P P

8 8

- 150 - 150

Perhitungan Tulangan Pelat Pelat ly lx ly/lx koofisien Mu ( kNm ) Mu/0.8 f'c ( Mpa ) fy ( Mpa ) rho b Tebal Penutup Beton Ø (mm) d ( mm ) m Rn rho min rho perlu 1.33 rho perlu rho max rho pakai As Ø (mm) Luas tul S S pakai ( mm ) As ada a Mn 1.33Mu/0.8 Mu pakai Keterangan

3.05 3 Lx 44 4 4.65894 20 240 0.043006 120 21 8 95 14.11765 0.516226 0.005833 0.002185 0.002906 0.032254 0.002906 276.0281 8 50.28571 182.1761 150 335.2381 4.732773 7.453036 6.19639 6.19639 AMAN

Rekapitulasi Penulangan Plat Tipe Pelat A Panjang (m) 3.05 Lebar m 3 Ø (mm) 8 Jarak S (mm) 150

Pelat Lantai tipe A 3.05 3.05 3 3 1.02 Ly tx 44 44 4 4 4.65894 4.65894 20 20 240 240 0.043006 0.043006 120 120 21 21 8 8 87 95 14.117647 14.11765 0.6155291 0.516226 0.0058333 0.005833 0.0026129 0.002185 0.0034752 0.002906 0.0322545 0.032254 0.0034752 0.002906 302.3383 276.0281 8 8 50.285714 50.28571 166.32267 182.1761 150 150 335.2381 335.2381 4.7327731 4.732773 6.8093787 7.453036 6.1963902 6.19639 6.1963902 6.19639 AMAN AMAN

A 3.05 3 8 150

A 3.05 3 8 150

3.05 3 ty 44 4 4.65894 20 240 0.043006 120 21 8 87 14.117647 0.6155291 0.0058333 0.0026129 0.0034752 0.0322545 0.0034752 302.3383 8 50.285714 166.32267 150 335.2381 4.7327731 6.8093787 6.1963902 6.1963902 AMAN

A 3.05 3 8 150

Desain Tebal Pondasi Desain Pondasi keterangan satuan h kolom m b kolom m Øtul asum. mm Pb σ ijin tanah

P1

mm KN/m2 KN/m3

δ tanah fy f'c Bj beton Kedalaman αs h pondasi Mu Pu e

Mpa Mpa KN/m3 m m KNm KN m KN/m2

σ neto Asumsi dimensi B pakai m L pakai m m2 A pakai

KN/m2

q max

KN/m2 q min Geser satu arah (B=L) KN/m2 qc d m

m m KN/m2

qu3 Vu Vc 0.6*Vc kontrol

KN KN KN

P2 0.25 0.2 13

0.25 0.25 13

70

70

150

150

18 400 20

18 400 20

24 24 1.5 1.5 20 20 0.2 0.25 0.2 0.96 106.97 210.4 0.00186968 0.00456274 131.4

133.5

1 1

1.3 1.3

1

1.69

108.17 127.118798 105.77 121.875284 106.97 124.497041 0.1235 0.1735 0.2515 0.3515 107.5664 126.06223 27.1288523 57.8455355 92.0514651 168.115044 55.230879 100.869026 Aman Aman

Geser dua arah b0

m

βc Vu Vc1 Vc2 Vc pakai 0.6*Vc kontrol

KN KN KN KN KN

Perhitungan Tulangan Pondasi keterangan satuan f'c Mpa fy Mpa

1.394

1.694

1 94.0451091 256.639485 256.639485 256.639485 153.983691 aman

1 188.071176 438.133669 438.133669 438.133669 262.880201 aman

P1

P2 20 400

20 400

B pakai L pakai h pakai Øtul asumsi beton cover d q max q min li q2 Mu Mn As' a

m m mm mm mm mm KN/m2 KN/m2 m KN/m2 KNm KNm mm2

1 1 200 13 70 123.5

1.3 1.3 250 13 70 173.5

108.17 127.118798 105.77 121.875284 0.25 0.4 107.57 125.505409 3.3709375 10.1049683 4.21367188 12.6312104 94.7744461 202.228793 2.22998697 4.75832453

As perlu

mm mm2

As min

mm2

1,33 As per.

mm2

114.478557 245.433432

As pakai Ø tul

mm2

114.478557 245.433432 12 12

A1 Ø S Spakai Spakai tulangan susut As Ø tul A1 Ø S Spakai Spakai

mm mm2 mm

mm mm2 mm

86.0741033 184.536415 432.25

607.25

113.097336 113.097336 987.934668 460.806559 980 460 240 240 400 10

500 10

78.5398163 78.5398163 196.349541 157.079633 190 150 190 150

Rekapitulasi Penulangan Pondasi P1 Panjang Lebar Tebal Ø tul S jarak Ø tul susut S jarak

m m m mm mm m mm

P2 1 1 0.2 12 150 10 190

1.3 1.3 0.25 12 150 10 150

TABLE: Combination Definitions ComboName ComboType CaseType Text Text Text COMB1 Linear Add Linear Static COMB1 Linear Static COMB2 Linear Add Linear Static COMB2 Linear Static COMB2 Linear Static COMB3 Linear Add Linear Static COMB3 Linear Static COMB3 Linear Static

CaseName Text DEAD LIVE DEAD LIVE QUAKE DEAD LIVE QUAKE

ScaleFactor Unitless 1.2 1.6 1.05 0.6 1.05 1.05 0.6 -1.05

TABLE: Concrete Design 1 - Column Summary Data - ACI 318-99 Frame DesignSect DesignType DesignOpt Status Text Text Text Text Text 90 K20X25 Column Design No Messages 90 K20X25 Column Design No Messages 90 K20X25 Column Design No Messages 90 K20X25 Column Design No Messages 90 K20X25 Column Design No Messages 32 K25X25 Column Design No Messages 32 K25X25 Column Design No Messages 32 K25X25 Column Design No Messages 120 KP Column Design No Messages 120 KP Column Design No Messages 120 KP Column Design No Messages 120 KP Column Design No Messages 120 KP Column Design No Messages 166 KO20 Column Design No Messages 166 KO20 Column Design No Messages 166 KO20 Column Design No Messages

SteelDesign ConcDesign AlumDesign ColdDesign Yes/No Yes/No Yes/No Yes/No No Yes No No No

No

No

No

No

No

No

No

Location mm 0 2025 2700 2700 4050 0 2025 4050 0 2025 2700 2700 4050 0 2025 4050

PMMCombo PMMArea PMMRatio MajComb VMajRebaVMinCombo VMinRebar ErrMsg Text mm2/mm Text Text mm2 Unitless Text mm2/mm COMB1 500 COMB1 0 COMB1 0 No Messages COMB1 500 COMB1 0 COMB1 0 No Messages COMB1 500 COMB1 0 COMB1 0 No Messages COMB1 500 COMB1 0 COMB1 0 No Messages COMB1 500 COMB1 0 COMB1 0 No Messages COMB1 625 COMB1 0 COMB1 0 No Messages COMB1 625 COMB1 0 COMB1 0 No Messages COMB1 663.77976 COMB1 0 COMB1 0 No Messages COMB1 225 COMB1 0 COMB1 0 No Messages COMB1 225 COMB1 0 COMB1 0 No Messages COMB1 225 COMB1 0 COMB1 0 No Messages COMB1 225 COMB1 0 COMB1 0 No Messages COMB1 225 COMB1 0 COMB1 0 No Messages COMB1 314.1592654 COMB1 0 COMB1 0 No Messages COMB1 314.1592654 COMB1 0 COMB1 0 No Messages COMB1 314.1592654 COMB1 0 COMB1 0 No Messages

WarnMsg Text No Messages No Messages No Messages No Messages No Messages No Messages No Messages No Messages No Messages No Messages No Messages No Messages No Messages No Messages No Messages No Messages

TABLE: Concrete Design 2 - Beam Summary Data - ACI 318-99 Frame

DesignSect

DesignType

Status

Location

FTopCombo

FTopArea

FBotCombo

FBotArea

VCombo

VRebar

TLngCombo

TLngArea

TTrnCombo

TTrnRebar

Text

Text

Text

Text

mm

Text

mm2

Text

mm2

Text

mm2/mm

Text

mm2

Text

mm2/mm

1 S20X30

Beam

No Messages

0 COMB1

128.2593989 COMB1 (Sp)

63.58297499 COMB1

0 COMB1

0 COMB1

0

1 S20X30

Beam

No Messages

450 COMB1

58.7730701 COMB1 (Sp)

45.5770671 COMB1

0 COMB1

0 COMB1

0

1 S20X30

Beam

No Messages

900 COMB1 (Sp)

45.5770671 COMB1 (Sp)

45.5770671 COMB1

0 COMB1

0 COMB1

0

1 S20X30

Beam

No Messages

1350 COMB1 (Sp)

45.5770671 COMB1

57.8115631 COMB1

0 COMB1

0 COMB1

0

1 S20X30

Beam

No Messages

1800 COMB1 (Sp)

45.5770671 COMB1

106.7736834 COMB1

0 COMB1

0 COMB1

0

1 S20X30

Beam

No Messages

2250 COMB1 (Sp)

45.5770671 COMB1

149.4869779 COMB1

0 COMB1

0 COMB1

0

1 S20X30

Beam

No Messages

2700 COMB1

0 COMB1

185.7314165 COMB1

0 COMB1

0 COMB1

0

81 B20X35

Beam

No Messages

0 COMB1

256.1647747 COMB1

0 COMB1

237.758879 COMB1

0.33237968

81 B20X35

Beam

No Messages

500 COMB1

348.5212858 COMB1 (Sp)

126.2207871 COMB1

0 COMB1

237.758879 COMB1

0.33237968

81 B20X35

Beam

No Messages

1000 COMB1

307.9079084 COMB1 (Sp)

126.2207871 COMB1

0 COMB1

237.758879 COMB1

0.33237968

81 B20X35

Beam

No Messages

1000 COMB1 (Sp)

126.2207871 COMB1 (Sp)

126.2207871 COMB1

0 COMB1

238.111734 COMB1

0.331683219

81 B20X35

Beam

No Messages

1500 COMB1 (Sp)

126.2207871 COMB1 (Sp)

126.2207871 COMB1

0 COMB1

238.111734 COMB1

0.331683219

81 B20X35

Beam

No Messages

2000 COMB1 (Sp)

126.2207871 COMB1 (Sp)

126.2207871 COMB1

0 COMB1

238.111734 COMB1

0.331683219

81 B20X35

Beam

No Messages

2000 COMB1 (Sp)

126.2207871 COMB1

275.7903156 COMB1

0 COMB1

315.188008 COMB1

0.148365535

81 B20X35

Beam

No Messages

2500 COMB1 (Sp)

126.2207871 COMB1

275.7903156 COMB1

0 COMB1

315.188008 COMB1

0.148365535

81 B20X35

Beam

No Messages

3000 COMB1 (Sp)

126.2207871 COMB1

275.7903156 COMB1

0 COMB1

315.188008 COMB1

0.148365535

396.511655 COMB1 (Sp)

81 B20X35

Beam

No Messages

3500 COMB1 (Sp)

126.2207871 COMB1

275.7903156 COMB1

0 COMB1

315.188008 COMB1

0.148365535

81 B20X35

Beam

No Messages

4000 COMB1 (Sp)

126.2207871 COMB1

275.7903156 COMB1

0 COMB1

315.188008 COMB1

0.148365535

81 B20X35

Beam

No Messages

4500 COMB1 (Sp)

126.2207871 COMB1

275.7903156 COMB1

0 COMB1

315.188008 COMB1

0.148365535

81 B20X35

Beam

No Messages

4500 COMB1 (Sp)

126.2207871 COMB1 (Sp)

126.2207871 COMB1

0 COMB1

0 COMB1

0

81 B20X35

Beam

No Messages

5000 COMB1 (Sp)

126.2207871 COMB1 (Sp)

126.2207871 COMB1

0 COMB1

0 COMB1

0

81 B20X35

Beam

No Messages

5500 COMB1 (Sp)

126.2207871 COMB1 (Sp)

126.2207871 COMB1

0 COMB1

0 COMB1

0

81 B20X35

Beam

No Messages

6000 COMB1 (Sp)

126.2207871 COMB1 (Sp)

126.2207871 COMB1

0 COMB1

0 COMB1

0

81 B20X35

Beam

No Messages

6500 COMB1 (Sp)

126.2207871 COMB1 (Sp)

126.2207871 COMB1

0 COMB1

0 COMB1

0

81 B20X35

Beam

No Messages

7000 COMB1

57.35427257 COMB1

0 COMB1

0 COMB1

0

96 BL15X15

Beam

No Messages

0 COMB1

16.36308274 COMB1

0 COMB1

0 COMB1

0

96 BL15X15

Beam

No Messages

12.99809858 COMB1 (Sp)

8.151027348 COMB1

0 COMB1

0 COMB1

0

96 BL15X15

Beam

No Messages

1000 COMB1 (Sp)

8.151027348 COMB1 (Sp)

8.151027348 COMB1

0 COMB1

0 COMB1

0

96 BL15X15

Beam

No Messages

1500 COMB1 (Sp)

8.151027348 COMB1

10.965829 COMB1

0 COMB1

0 COMB1

0

96 BL15X15

Beam

No Messages

2000 COMB1 (Sp)

8.151027348 COMB1

15.28803584 COMB1

0 COMB1

0 COMB1

0

96 BL15X15

Beam

No Messages

2500 COMB1 (Sp)

8.151027348 COMB1

14.45051128 COMB1

0 COMB1

0 COMB1

0

96 BL15X15

Beam

No Messages

3000 COMB1 (Sp)

8.151027348 COMB1

8.465078137 COMB1

0 COMB1

0 COMB1

0

96 BL15X15

Beam

No Messages

3500 COMB1

2.59086877 COMB1 (Sp)

1.29467415 COMB1

0 COMB1

0 COMB1

0

180 RB20X30

Beam

No Messages

0 COMB1

114.0432652 COMB1 (Sp)

56.4999912 COMB1

0 COMB1

0 COMB1

0

180 RB20X30

Beam

No Messages

500 COMB1

69.57970717 COMB1 (Sp)

28.12312358 COMB1

0 COMB1

0 COMB1

0

180 RB20X30

Beam

No Messages

1000 COMB1

32.11296172 COMB1 (Sp)

28.12312358 COMB1

0 COMB1

0 COMB1

0

180 RB20X30

Beam

No Messages

1500 COMB1 (Sp)

28.12312358 COMB1 (Sp)

28.12312358 COMB1

0 COMB1

0 COMB1

0

180 RB20X30

Beam

No Messages

2000 COMB1 (Sp)

28.12312358 COMB1 (Sp)

28.12312358 COMB1

0 COMB1

0 COMB1

0

180 RB20X30

Beam

No Messages

2500 COMB1 (Sp)

28.12312358 COMB1

41.04999486 COMB1

0 COMB1

0 COMB1

0

180 RB20X30

Beam

No Messages

3000 COMB1 (Sp)

28.12312358 COMB1

52.84810482 COMB1

0 COMB1

0 COMB1

0

180 RB20X30

Beam

No Messages

3500 COMB1 (Sp)

28.12312358 COMB1

58.25561195 COMB1

0 COMB1

0 COMB1

0

180 RB20X30

Beam

No Messages

4000 COMB1 (Sp)

28.12312358 COMB1

57.23924632 COMB1

0 COMB1

0 COMB1

0

180 RB20X30

Beam

No Messages

4500 COMB1 (Sp)

28.12312358 COMB1

49.80527872 COMB1

0 COMB1

0 COMB1

0

180 RB20X30

Beam

No Messages

5000 COMB1 (Sp)

28.12312358 COMB1

35.99932866 COMB1

0 COMB1

0 COMB1

0

180 RB20X30

Beam

No Messages

5500 COMB1 (Sp)

28.12312358 COMB1 (Sp)

28.12312358 COMB1

0 COMB1

0 COMB1

0

180 RB20X30

Beam

No Messages

6000 COMB1 (Sp)

28.12312358 COMB1 (Sp)

28.12312358 COMB1

0 COMB1

0 COMB1

0

180 RB20X30

Beam

No Messages

6500 COMB1

43.22138879 COMB1 (Sp)

28.12312358 COMB1

0 COMB1

0 COMB1

0

180 RB20X30

Beam

No Messages

7000 COMB1

82.87129077 COMB1 (Sp)

41.16155636 COMB1

0 COMB1

0 COMB1

0

0 COMB1 32.97589802 COMB1 (Sp)

500 COMB1

TABLE: Load Case Definitions LoadCase DesignType SelfWtMult AutoLoad Text Text Unitless Text DEAD DEAD 1 LIVE LIVE 0 QUAKE QUAKE 0 USER LOADS

TABLE: Material Properties 04 - Design Concrete RebarFys LtWtConc Material Fc RebarFy Text N/mm2 N/mm2 N/mm2 Yes/No CONC 20 400 240 No

LtWtFact Unitless 1

TABLE: Element Forces - Frames Frame

Station

OutputCase

CaseType

P

V2

V3

T

M2

M3

FrameElem

ElemStation

Text

m

Text

Text

KN

KN

KN

KN-m

KN-m

KN-m

Text

m

31

0 COMB1

Combination

-210.4079759

-0.591142852

-0.508612689

-5.65E-02

-0.795333957

-0.718761802

238

0

31

1.425 COMB1

Combination

-207.8900009

-0.591142852

-0.508612689

-5.65E-02

-7.06E-02

0.123616762

238

1.425

31

2.85 COMB1

Combination

-205.3720259

-0.591142852

-0.508612689

-5.65E-02

0.654212205

0.965995326

238

2.85

99

0 COMB1

Combination

-106.9673517

-4.84E-02

3.61E-02

3.59E-02

-8.81E-02

7.79E-02

156

0

99

1.425 COMB1

Combination

-104.9529717

-4.84E-02

3.61E-02

3.59E-02

-0.13952272

0.146928714

156

1.425

99

2.85 COMB1

Combination

-102.9385917

-4.84E-02

3.61E-02

3.59E-02

-0.190951119

0.215937929

156

2.85