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Perhitungan Plat dan Balok, Cheat Sheet of Structures and Materials

Universitas Siliwangi (US)Structures and Materials
Prof. Agus Widodo

PERHITUNGAN PLAT LANTAI (SLAB) DAN PERHITUNGAN BALOK LANTAI (BEAM )

Typology: Cheat Sheet

2021/2022

Available from 02/19/2023

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PERHITUNGAN PLAT LANTAI (SLAB )
PLAT LENTUR DUA ARAH (TWO WAY SLAB )
[C]2010 : M. Noer Ilham
A. DATA BAHAN STRUKTUR
Kuat tekan beton, f
c
' = 20 MPa
Tegangan leleh baja untuk tulangan lentur, f
y
= 240 MPa
B. DATA PLAT LANTAI
Panjang bentang plat arah x, L
x
= 3.00 m
Panjang bentang plat arah y, L
y
= 4.50 m
Tebal plat lantai, h = 120 mm
Koefisien momen plat untuk : L
y
/ L
x
= 1.50 KOEFISIEN MOMEN PLAT
Lapangan x C
lx
= 36
Lapangan y C
ly
= 17
Tumpuan x C
tx
= 76
Tumpuan y C
= 57
Diameter tulangan yang digunakan,
= 10 mm
Tebal bersih selimut beton, t
s
= 20 mm
C. BEBAN PLAT LANTAI
1. BEBAN MATI (DEAD LOAD )
No Jenis Beban Mati Berat satuan Tebal (m) Q (kN/m2)
1Berat sendiri plat lantai (kN/m3)24.0 0.12 2.880
2
Berat
finishing
lantai (kN/m
3
)
22.0
0.05
1.100
3
Berat plafon dan rangka (kN/m
2
)
0.2
-
0.200
4
Berat instalasi ME (kN/m
2
)
0.5
-
0.500
Total beban mati, Q
D
= 4.680
pf3
pf4
pf5
pf8

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PERHITUNGAN PLAT LANTAI ( SLAB )

PLAT LENTUR DUA ARAH ( TWO WAY SLAB ) [C]2010 : M. Noer Ilham

A. DATA BAHAN STRUKTUR

Kuat tekan beton, fc' = 20 MPa Tegangan leleh baja untuk tulangan lentur, fy = 240 MPa

B. DATA PLAT LANTAI

Panjang bentang plat arah x, Lx = 3.00 m Panjang bentang plat arah y, Ly = 4.50 m Tebal plat lantai, h = 120 mm Koefisien momen plat untuk : Ly / Lx = 1.50 KOEFISIEN MOMEN PLAT Lapangan x Clx = 36 Lapangan y Cly = 17 Tumpuan x Ctx = 76 Tumpuan y Cty = 57 Diameter tulangan yang digunakan,  = 10 mm Tebal bersih selimut beton, ts = 20 mm

C. BEBAN PLAT LANTAI

1. BEBAN MATI ( DEAD LOAD )

No Jenis Beban Mati Berat satuan Tebal (m) Q (kN/m 2 ) 1 Berat sendiri plat lantai (kN/m (^3) ) 24.0 0.12 2. 2 Berat finishing lantai (kN/m^3 ) 22.0 0.05 1. 3 Berat plafon dan rangka (kN/m^2 ) 0.2 - 0. 4 Berat instalasi ME (kN/m^2 ) 0.5 - 0. Total beban mati, QD = 4.

2. BEBAN HIDUP ( LIVE LOAD )

Beban hidup pada lantai bangunan = 300 kg/m 2

 QL = 3.000 kN/m

2

3. BEBAN RENCANA TERFAKTOR Beban rencana terfaktor, Qu = 1.2 * QD + 1.6 * QL = 10.416 kN/m 2 4. MOMEN PLAT AKIBAT BEBAN TERFAKTOR Momen lapangan arah x, Mulx = Clx * 0.001 * Qu * Lx 2 = 3.375 kNm/m Momen lapangan arah y, Muly = Cly * 0.001 * Qu * Lx 2 = 1.594 kNm/m Momen tumpuan arah x, Mutx = Ctx * 0.001 * Qu * Lx 2 = 7.125 kNm/m Momen tumpuan arah y, Muty = Cty * 0.001 * Qu * Lx 2 = 5.343 kNm/m

Momen rencana (maksimum) plat,  Mu = 7.125 kNm/m

D. PENULANGAN PLAT

Untuk : fc' ≤ 30 MPa,  1 = 0. Untuk : fc' > 30 MPa,  1 = 0.85 - 0.05 * ( fc' - 30) / 7 = -

Faktor bentuk distribusi tegangan beton,   1 = 0.

Rasio tulangan pada kondisi balance , b =  1 * 0.85 * fc'/ fy * 600 / ( 600 + fy ) = 0. Faktor tahanan momen maksimum, Rmax = 0.75 * b * fy * [ 1 – ½* 0.75 * b * fy / ( 0.85 * fc') ] = 5. Faktor reduksi kekuatan lentur,  = 0. Jarak tulangan terhadap sisi luar beton, ds = ts +  / 2 = 25.0 mm Tebal efektif plat lantai, d = h - ds = 95.0 mm

Ditinjau plat lantai selebar 1 m,  b = 1000 mm

Momen nominal rencana, Mn = Mu /  = 8.906 kNm Faktor tahanan momen, Rn = Mn * 10

  • / ( b * d 2 ) = 0.

Rn < Rmax  (OK)

Rasio tulangan yang diperlukan :  = 0.85 * fc' / fy * [ 1 -  [ 1 – 2 * Rn / ( 0.85 * fc' ) ] = 0.

Lendutan jangka panjang akibat rangkak dan susut : g = * 5 / 384 * Q * Lx 4 / ( Ec * Ie ) = 5.979 mm Lendutan total, tot = e + g = 9.620 mm

Syarat : tot ≤ Lx / 240

9.620 < 12.500  AMAN (OK)

PERHITUNGAN BALOK LANTAI ( BEAM )

[C]2010 : M. Noer Ilham

A. DATA BALOK LANTAI

BAHAN STRUKTUR Kuat tekan beton, fc' = 20 MPa Tegangan leleh baja (deform) untuk tulangan lentur, fy = 400 MPa Tegangan leleh baja (polos) untuk tulangan geser, fy = 240 MPa DIMENSI BALOK Lebar balok b = 300 mm Tinggi balok h = 600 mm Diameter tulangan (deform) yang digunakan, D = 19 mm Diameter sengkang (polos) yang digunakan, P = 10 mm Tebal bersih selimut beton, ts = 30 mm MOMEN DAN GAYA GESER RENCANA Momen rencana positif akibat beban terfaktor, Mu

= 235.301 kNm Momen rencana negatif akibat beban terfaktor, Mu

  • = 157.123 kNm Gaya geser rencana akibat beban terfaktor, Vu = 152.954 kN

Baris Jumlah Jarak Juml. Jarak ke ni yi ni * yi 1 4 49.50 198. 2 2 93.50 187. 3 0 0.00 0. n = 6 ni * yi ] =^385

Letak titik berat tulangan,  d' =  [ ni * yi ] / n = 64.17 mm

64.17 < 70  perkiraan d' (OK)

Tinggi efektif balok, d = h - d' = 535.83 mm a = As * fy / ( 0.85 * fc' * b ) = 133.425 mm Momen nominal, Mn = As * fy * ( d - a / 2 ) * 10

  • = 319.222 kNm Tahanan momen balok,  * Mn = 255.378 kNm

Syarat :  * Mn ≥ Mu

255.378 > 235.301  AMAN (OK)

2. TULANGAN MOMEN NEGATIF

Momen negatif nominal rencana, Mn = Mu

  • /  = 196.404 kNm Diperkirakan jarak pusat tulangan lentur ke sisi beton, d' = 50 mm Tinggi efektif balok, d = h - d' = 550.00 mm Faktor tahanan momen, Rn = Mn * 10 6 / ( b * d 2 ) = 2.

Rn < Rmax  (OK)

Rasio tulangan yang diperlukan :  = 0.85 * fc’ / fy * [ 1 -  * [1 – 2 * Rn / ( 0.85 * fc’ ) ] = 0. Rasio tulangan minimum, min =  fc' / ( 4 * fy ) = 0. Rasio tulangan minimum,  (^) min = 1.4 / fy = 0.

Rasio tulangan yang digunakan,  =^ 0.

Luas tulangan yang diperlukan, As = * b * d = 958 mm 2 Jumlah tulangan yang diperlukan, n = As / (  / 4 * D 2 ) = 3. Digunakan tulangan, 4 D 19 Luas tulangan terpakai, As = n *  / 4 * D 2 = 1134 mm 2 Jumlah baris tulangan, nb = n / ns = 1.

nb < 3  (OK)

Baris Jumlah Jarak Juml. Jarak ke ni yi ni * yi 1 4 49.50 198. 2 0 0.00 0. 3 0 0.00 0. n = 4 ni * yi ] =^198

Letak titik berat tulangan,  d' =  [ ni * yi ] / n = 49.50 mm

49.50 < 50  perkiraan d' (OK)

Tinggi efektif balok, d = h - d' = 550.5 mm a = As * fy / ( 0.85 * fc' * b ) = 88.950 mm Momen nominal, Mn = As * fy * ( d - a / 2 ) * 10

  • = 229.556 kNm Tahanan momen balok,  * Mn = 183.645 kNm

Syarat :  * Mn ≥ Mu

183.645 > 157.123  AMAN (OK)

3. TULANGAN GESER

Gaya geser ultimit rencana, Vu = 152.954 kN Faktor reduksi kekuatan geser, = 0. Tegangan leleh tulangan geser, fy = 240 MPa Kuat geser beton, Vc = (√ fc') / 6 * b * d * 10

  • = 118.512 kN Tahanan geser beton, Vc = 71.107 kN

 Perlu tulangan geser

Tahanan geser sengkang, Vs = Vu - Vc = 81.847 kN Kuat geser sengkang, Vs = 136.412 kN Digunakan sengkang berpenampang : 2 P 10 Luas tulangan geser sengkang, Av = ns *  / 4 * P 2 = 157.08 mm 2 Jarak sengkang yang diperlukan : s = Av * fy * d / ( Vs * 10 3 ) = 146.47 mm Jarak sengkang maksimum, smax = d / 2 = 267.92 mm Jarak sengkang maksimum, smax = 250.00 mm Jarak sengkang yang harus digunakan, s = 146.47 mm

Diambil jarak sengkang :  s = 140 mm

Digunakan sengkang, 2 P 10 140