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Beban Angin

The document contains material properties, load combinations, and seismic load parameters for the design of a concrete industrial structure located in a region with SDS of 0.350208. It provides concrete compressive strength, steel yield strength, reinforcement properties, and load combinations according to Indonesian code SNI 1726:2012. Seismic parameters include response modification factor R, system overstrength factor Ω, deflection amplification factor Cd, and equivalent lateral force equations.

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Kevin Nathaniel
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60 views11 pages

Beban Angin

The document contains material properties, load combinations, and seismic load parameters for the design of a concrete industrial structure located in a region with SDS of 0.350208. It provides concrete compressive strength, steel yield strength, reinforcement properties, and load combinations according to Indonesian code SNI 1726:2012. Seismic parameters include response modification factor R, system overstrength factor Ω, deflection amplification factor Cd, and equivalent lateral force equations.

Uploaded by

Kevin Nathaniel
Copyright
© © All Rights Reserved
We take content rights seriously. If you suspect this is your content, claim it here.
Available Formats
Download as XLSX, PDF, TXT or read online on Scribd
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GCpf

1 2 3 4 5 6 1E 2E 3E 4E
-0.45 -0.69 -0.37 -0.45 0.4 -0.29 -0.48 -1.07 -0.53 -0.48

qh (N/m2) 825.37
p1 p2 p3 p4 p5 p6 p1E p2E p3E p4E
-519.9831 -718.072 -453.954 -519.983 478.7146 -387.924 -544.744 -1031.71 -586.013 -544.744
-1039.966 -1436.14 -907.907 -2079.93 1196.787 -1357.73 -108.949 -2269.77 -1289.23 -1089.49
GCpi
5E 6E ALL ALL
0.61 -0.43 0.18 -0.18

p5E p6E
652.0423 -503.476
65.20423 -1057.3
Mechanical and Physical Properties
Concrete Typical Frame Properties b (mm) h (mm)
fc' beam K-250 20.75 Mpa K 400 Column Concrete 400 400
fc' column K-250 20.75 Mpa B 300 X 450 Beam Concrete 300 450
γc 2400 kg/m3
Ec balok 21409.52 MPa Typical Frame Properties bf (mm) tf (mm)
Ec kolom 21409.52 MPa K 300 X 300 X 15 X 10 Column Steel 400 21
Steel Profile - A36 K 250 X 250 X 14 X 9 Column Steel 250 14
fy 250 MPa L 120 X 120 X 12 X 12 Bracing Steel
fu 400-550 MPa B 350 X 175 X 9 X 6 Beam Steel 175 9
Es 200000 MPa B 300 X 150 X 9 X 5.5 Beam Steel 150 9
γs 7850 kg/m3 B 250 X 125 X 9 X 6 Beam Steel 125 9
Steel Reinforcement - ASTM A615 B 200 X 100 X 8 X 5.5 Beam Steel 100 8
Deform - Bj. TD 40 B 150 X 100 X 9 X 6 Beam Steel 100 9
fy 392 MPa
fu 559 MPa
Es 200000 MPa
γs 7850 kg/m3
Bolts - A325
fu p
585 MPa
fu b
825 MPa
Welds E70XX Electrodes
fuw 490 MPa

EQUIP LIVE
GRATING HANDRAIL
SNI 1726:2012 Pasal 7.22 Tabel 9
Structure Location
First storey
Above the first storey

h (mm) tw (mm) SNI 1726:2012 Pasal 7.2.3.1


400 13
Jika struktur atas memiliki nilai faktor modifikasi respons yang lebih kecil, maka k
250 9 desain (R, Ω, Cd) struktur atas harus digunakan untuk kedua struktur atas ma
struktur bawah
350 6
300 5.5
250 6
200 5.5
150 6
12 Pasal 7.22 Tabel 9
Seismic Resisting System R Ω Cd Gravity Load
Special Moment Resisting Frame 8 3 5.5 Live Load (Industry)
Ordinary Concentrically Braced Frame 3.25 2 3.25 Sulphur Condenser
Handrail
12 Pasal 7.2.3.1 Hoist Crane
Steel Grating
atas memiliki nilai faktor modifikasi respons yang lebih kecil, maka koefisien
, Ω, Cd) struktur atas harus digunakan untuk kedua struktur atas maupun
struktur bawah Jenis Pemanfaatan
Kategori Risiko
Faktor Keutamaan Gempa
SDS
SD1
Kategori Desain Seismik
SNI 1726:2012 Chap. 4.2.2 (STRENGTH METHOD)
Kinds of Load Value Units Kombinasi DL LL LR
Distributed Load 400 kg/m2 COMB1 1.40
Concentrated Load 10 ton/footing COMB2 1.20 1.60 0.50
Line Distributed Load 15 kg/m COMB3 1.20 1.60
Concentrated Load 5 ton COMB4 1.20 1.00 1.60
Distributed Load 100.4 kg/m2 COMB5 1.20 1.60
COMB6 1.20 1.00
Bangunan Industri COMB7 1.20
II COMB8 1.20 1.00 0.50
1 COMB9 1.20 1.00
0.9 COMB10 1.38 1.00
0.350208 COMB11 1.38 1.00
D COMB12 1.38 1.00
COMB13 1.38 1.00
COMB14 1.38 1.00
COMB15 1.38 1.00
COMB16 1.38 1.00
COMB17 1.38 1.00
COMB18 0.90
COMB19 0.72
COMB20 0.72
COMB21 0.72
COMB22 0.72
COMB23 0.72
COMB24 0.72
COMB25 0.72
COMB26 0.72

SNI 1726:2012 Chap. 4.2.3 (ALLOWABLE STRESS DESIGN METHOD


Kombinasi DL LL
COMB1 1.00
COMB2 1.00 1.00
COMB3 1.00 0.75
COMB4 1.13
COMB5 1.13
COMB6 1.13
COMB7 1.13
COMB8 1.13
COMB9 1.13
COMB10 1.13
COMB11 1.13
COMB12 1.095
COMB13 1.095
COMB14 1.095
COMB15 1.095
COMB16 1.095
COMB17 1.095
COMB18 1.095
COMB19 1.095
COMB20 0.47
COMB21 0.47
COMB22 0.47
COMB23 0.47
COMB24 0.47
COMB25 0.47
COMB26 0.47
COMB27 0.47
TH METHOD)
R W EQX EQY Kondisi Struktur Beraturan
KDS D
Redundansi 1
0.50
EqH 0.18
0.50 Dynamic Factor 1.5
1.60
1.60 0.50
1.00
0.50 1.00
1.00 0.30
1.00 -0.30
-1.00 0.30
-1.00 -0.30
0.30 1.00
-0.30 1.00
0.30 -1.00
-0.30 -1.00
1.00
1.00 0.30
1.00 -0.30
-1.00 0.30
-1.00 -0.30
0.30 1.00
-0.30 1.00
0.30 -1.00
-0.30 -1.00

BLE STRESS DESIGN METHOD) Kondisi Struktur Beraturan


EqX EqY KDS D
Redundansi 1

EqH (0.14 Sds) 0.126


0.70 0.21 EqH (0.105 Sds) 0.0945
0.70 -0.21 Dynamic Factor 1.5
-0.70 0.21
-0.70 -0.21
0.21 0.70
-0.21 0.70
0.21 -0.70
-0.21 -0.70
0.53 0.16
0.53 -0.16
-0.53 0.16
-0.53 -0.16
0.16 0.53
-0.16 0.53
0.16 -0.53
-0.16 -0.53
0.70 0.21
0.70 -0.21
-0.70 0.21
-0.70 -0.21
0.21 0.70
-0.21 0.70
0.21 -0.70
-0.21 -0.70

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