انشاءات معدنية
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א א א א .2 Wאאא
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א א אאאאאא אאאאאTrusses
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Piles and Sheet Piles
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אאאאscrew piles אאאא
אאCofferdamsאאאאsheet piles אאאאאאאאא Kא
אאא א.10.2 Kאאאאא
Structural Analysis and Design אאא.٣ אKא אא
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SI UNITS אא א.٤ ، אאאא ،EKilogram, KgFEFאא،EMeter, mFEFאWא
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Acceleration
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Force
א Stress
-٦-
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אאאאא א:٢٫١ א אאא 1 in.
אאא
= 25.400 mm = 0.25400 m = 645.16 mm2 = 6.451600 x 10- 4 m2
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1 Kip
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Steel structures characteristics אאא .٥ Wאאאא
Kאאאא •
אא א• א Kאאא
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אאאא• א א
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אאElastic Limitא • Kאאא
K• א אאאא .٦ Wאא
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Kאאא: Flange • א
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KאWPitch• א
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Plates and Bars
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אא:١١٫١א Structural Sections א א.٩ אRolled Steel Sectionsאאא אאאאאא אאאאאאא
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אאאאאא א200000 Mpaאאא210000 Mpa200000 Mpa
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Minimum Yield Stress (K.S.I) 36
א A36 A441 A242 A588
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א אאא
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Dead Loads
א א.1.2
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Load and resistance FאאELoad factor designFא
K(Limit States DesignFאא،Efactor design אאאאא American Institute of Steel Construction, AISCאאאK Wאאאאא م1.4 • ( )س أو ث أو ط0.5 + ح1.6 + م1.2 • ( ر0.8 ح أو0.5) + ( )س أو ث أو ط1.6 + م1.2 • ( )س أو ث أو ط0.5 + ح0.5 + ر1.3 + م1.2 • ( ث0.2 ح أو0.5) + ز1.5 + م1.2 • ( ز1.5 ر أو1.3) - م0.9 • -٢٨-
אא אאאא
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Yield Stressאאאא KYield Load א
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Ultimate Tensile Stress of the Steel אא -Fu
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PאENecks downFאאא KEFractureFא
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: ﺣﻴﺚ إن (Gross Area) א א:
(Diameter of the Rivet) א :
(Thickness of the member) א : -٣٣-
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e
אא אאאא
٢١١
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Compression Membersא.٦ אאEFאא KE٧{٢ אFא
אW٧٫٢א אאאאא (Slenderness RatioFאאEBucklingFא E אאFLאאא KE٨{٢אFERadius of gyrationFrא
אאW٨٫٢א
Elastic Bucklingא• א
אאאא
K(٩{٢אFאאאא א (Slenderness RatioF -٣٤-
אא אאאא
٢١١
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א
P
P
אאW٩٫٢א
אאאא W Euler Formula •
אאאאא،אאא
WCrippling LoadאK
P=
π2 E I L2
W אW I
אאW L
I = A.r 2 W
Wאאאא
-٣٥-
אא אאאא
٢١١
א
א
P=
π2 E A r2 L2
2 P =f = π E A c (L/r) 2
W Crippling Stress א א:
Slenderness Ratio אW אאאא אא
fc L r
،אא
2 π E = 2 (L/r) 2
F y
2 2π E L = r F y
W
، Cc L/r
Cc =
2 2π E F y
126.1 A36 Cc א،א Cc K107.6E50 K.S.IF
א،אאאא KL/r ≥ C c אא،
Kאאאא KL/r < Cc א
: Fa AISC אאא -٣٦-
אא אאאא
٢١١
א
א
InelasticBuckling א• א ،אאא
Fa =
⎡ 2⎤ ⎢1 − (KL/r) ⎥ F ⎥ y ⎢ 2C c2 ⎥⎦ ⎢⎣
Fs
Factor of Safety אFsW
Wאא
3
3 (K.L /r) (K.L/r) F.S = 5 + 8 Cc
3
8 C3c
אא (KL/r) =Cc،Fs = 1.67(KL/r) = 0
Fs = 23/12 = 1.92
Elastic Buckling א• א
Euler Equation אא Fa =
F.S = 5 + 3
Wאאאאא π2 E
(L/r) 2 . Fs
3 (K.L /r) (K.L/r)3 8 Cc 8 C3c
Wא
L/rאSlenderness ratio א • א،אאא C c Wא
،(KL/r) <Cc• א -٣٧-
אא אאאא
٢١١
א
א
Effective length factor אאKF،(KL/r) ≥ Cc• א אאאאא
FPb אאאא
K14 ft.אW 12 x 72אאאאא
:
KA36אKאאא :א
radii Fאאא،אAISCאאא Wאאאא،Eof gyration
Fy = 36000 P.S.I،E = 29000 K.S.I،ry= 5.31 in. ،rx= 5.31 in. ،A = 21.1 in.
Wאא C c Cc =
2 2π E F y
2 2 π 2900
=
36
= 126.1
(KL/r)= 55.3 =
1 (14) 12 ،א 3.04
WאאFsא
(55.3)3 3 (K.L /r) (K.L/r)3 5 3 (55.3) = + − = 1.82 F.S = 5 + 3
8 Cc
8 C3c
3
-٣٨-
8 (126.1) 8 (126.1)3
אא אאאא
٢١١
א
א
Wאא
2 ⎤ ⎡ ⎡ 2⎤ (55.3) (KL/r) ⎢1 − ⎥F ⎥.36000 y ⎢1 − 2 2 ⎢ ⎥ 2C c ⎦ ⎢ 2 . (126.1) ⎥⎦ Fa = ⎣ =⎣ = 17900 P.S.I F s
1.82
Wאאאאא P = Fa . A = 17900 . (21.1) = 377000 Kips
KEAISCFאאאאא KEAISCFאאאאאW١{٢א
-٣٩-
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٢١١
א
א
Bending Moments א٧K א אWאא ABאאאK א אא
אא KE١٠٫٢אFCD אאאאE١٠٫٢אFKE١٠٫٢אF
אאאאא
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א
KאCDABאWEF١٠٫٢א א אאאא،א
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Design of Cleat Angle אאא .٤٫٣ KBearingsאאאאאאא
1890 אא אאא
א אאאאאK2L Kאאא
-٩١-
אאא אאאאאא
٢١١
א
א
Design of Base Plate א .٥٫٣
אK אאאאא
אאאאא א،א אאK אא Kאא אאאא .٦٫٣
K אאאא אאאאE
אא אeאאאbl KE٥٫٤אF
Wאאא
= 3 ⎜⎜ l - e ⎟⎟ . b ⎝2 ⎠ p Wאא P = 1 . 3 ( l - e).b 2 2 ⎛
⎞
W
p =
4P 3 (l - 2.e).b
אאא KאאאאK
-٩٢-
אאא אאאאאא
٢١١
א
א
:٥٫٤ א
K1
70 tonnesאISHB 300 x 58.8 Kg/m אא
K 40 Kg/cm2،Ebearing capacityF
Wא Wאאאא
اﻟﺤﻤﻞ Z(PFאא ﻣﺴﺎﺣﺔ اﻟﻘﺎﻋﺪة 2
1750 = 70000 = W =א 40
P
40x45אא
38.9Kg/cm 2 = 70000 Wאא 45x40
7.5 = B = AW -٩٣-
אאא אאאאאא
٢١١
א
א
Wאאא t =
3P 2 B 2 (A − ) F 4 b
t=
(7.5) 2 3 x 38.9 ) ((7.5) 2 − 4 1890
1.614= t
١٨=t א
20אא6 x65x65א
Kא
אאK٤ ،،אא
אאא K אאא אאאא אא
אאKא KאE2.54F1אCement Grout
אאאאא
אאאאאאאאאאא אאאאK אא אK אAnchor Bolt א
Kאאאאא
Wאאאא A= P f b -٩٤-
אאא אאאאאא
٢١١
א
א
W (Column loadFאJ P
אאאJ fb א אא
0.95Equivalent RectangleאאKאא אאK א0.80אא
אאאE ٦٫٤אFא אאKmn .AISCאאא
אאW٦٫٤א
אאאאא 2
A = N x BWאK L6040אא
EFאJ N EFא-B EFאJ P
EFאJ bf
Ep.s.i2LFאאאJ Fp
E،2FאJ A
-٩٥-
אאא אאאאאא
٢١١
א
א
( f P = P ) אאא -fP N.B
EFאJ t
אאא -Fb
KאאאBNא، A = P א F b
א אאא1אא
WEquivalent Rectangle א
2 m fP m M = f P (m) = 2 2
f n2 n M = f (n) = P P 2 2 WSection ModulusSא
2 S= M =f . m P 2.F F b b 2 S= M =f . n P 2.F F b b I/C א
W t 1אאא P 1 (t )3 t I= P = P 12 12
-٩٦-
אאא אאאאאא
٢١١
א
א
t C = P WאC 2 W
t3 3 2 P I 12 t P 2 t P S= = = . = C t P 12 t 6 P 2
2 2 I M t P fP . m S= = = = C F 6 2F b b
2 2 t f .n I S= = P = P C 6 2F b
2 2 3. f . n 3.f . m P P t 2P = t 2P = F F b b אאאאAISC אאא
W Fb = Fy Bearing Plates 3. f . m P t = P F y
2 = 3.m
f
P F y
f
f
t P = 2 . n P t P = 2 . m P WAISC אאא F F y y -٩٧-
אאא אאאאאא
٢١١
א
א
:1 KN)383000 lbW 14 x 90אאא
אאא،٧٫٤א(١٧٠٣٫٥ א
K(٣٤٤٫٧KN/m2F50 p.s.i.
W٧٫٤א
: א
Wאאא
A = P = 383000 = 766 in.2 ( ٠٫٥٠ m2) F P
500
Kא28 x 28א 27.7 in.א Wאא
f b = P = 383000 = 489 p.s.i. (٣٣٧١٫١٦Kn/m2) N . B (28) 2
Wא
d = 14.5 in. (36.8 cm) ; bf = 14 in.(35.5 cm) ; m = 8.2 in.(20.8 cm) ; n = 7.35 in.(18.7 cm) -٩٨-
אאא אאאאאא
٢١١
א
א
Kאm m > n f
489 t = 2 . m P = 2. (8.2). = 1.91 in. (4.85 cm) P 36000 Fy
WאאאאאE٥F٢א K٥x٧١x٧١
W2
250 KipsאW 12 x 58A36אא
א אאאאאKE١١١٢KnF K٨{٤א (١٢ Mpa) 1.8 ksiא
W٨٫٤א
-٩٩-
אאא אאאאאא
٢١١
א
א
Wא
، אJ N
אJ B אJ t
Kאאא-m
KאאאJ n
WAאא
A = P / Fp A = 250 kips / 1.8 ksi 2
2
A = 138.9 in. (0.09 m )
א،אא، N = B = 11.8 in.( ٣٠ cm) Km=n
W،אאאא
١٢{١٩in.אאJ d
١٠٫٠١٤in.אJ b
Kאm = n
N = 2m + 0.95 d 2 m = N - 0.95 d = 11.8 - 0.95 x 12.19 2 m = 11.8 - 11.58 = 0.22 in. m = 0.11 in. -١٠٠-
אאא אאאאאא
٢١١
א
א
،א א
Kmאאאm = 1.21 in.א
N = 2m + 0.95 d = 2 x 1.21 + 0.95 x 12.19 N = 2 x 1.21 + 0.95 x 12.19 = 2.42 + 11.58 = 14 in.
١٢in. B
B = 2 n + 0.80 b 2 n = B - 0.80 b = 12 - 0.80 x 10.014 2 n = 3.99 in.
n = 2 in. 250 kips
Kn
fP = = 1.49 k.s.i Wאא 12 x 14 Wאא Fb = 0.75 FY = 0.75 x 36 = 27 k.s.i
Wא،אא
3. f . n2 3 . f . m2 P P t= = F F b b
3 . f . m2 3 x 1.49 x 1.212 P t= = = 0.50 in. F 27 b
-١٠١-
אאא אאאאאא
٢١١
א
א
3 . f . m2 3 x 1.49 x 2 2 P t= = = 0.81 in . 27 F b
Kאא،א א t = 0.81 in.
K٩٫٤אאאא
Kאאא:٩٫٤א
-١٠٢-
אאא אאאאאא
٢١١
א
א
W ٢٤٠٠٠lbא א،A 36אW 10 x 22
אא١٠{٤א٨ in. א KFP =225 P.S.I א
Wא Wאאאא A = R = 24000 = 107 in. 2
F 225 P B = 13.5 in. C = 8in.
١٣٫٥ x ٨= א Wאא
f P = 24000 = 222 P.S.I 8 x 13.5 ٠٫٧٥in. KAISCא Wn١١{٤א
Kא:١٠٫٤א
n = B - K = 13.5 - 0.75 = 6.0 in. 2
2
-١٠٣-
אאא אאאאאא
٢١١
א
א
WאE١٢٫٤אFאא،١in.א
f . n 2 222 .(6.0) 2 M= b = = 3996 in - lb 2 2
Wאא
Fb = 0.75 (36) = 27 K.S.I S = M = 4.0 = 0.148 in.3 F b
Wא
27
Wאאא،א S=bt
3
12 c
W
E C = t F،אJ c 2
אJ t Wא،C
b t3 b t3 b t2 S= = = t 6 t 6 12 2 Kt،١in. (bFאא
-١٠٤-
אאא אאאאאא
٢١١
א
א
Kא:١١٫٤א S=t
2
6
⇒ t = 6.S = 6. (0.148)
t = 0.94 in.،
8 x 13.5 x 1 in.Wא
KאאW١٢٫٤א
AISCאאאאtא Kאאtאא -١٠٥-
אאא אאאאאא
٢١١
א
א
3 . f . n2 3 (222). 6 2 b = = 0.94 in. t= 27000 F b
Wאאאאא
6.S =
3 . f . n2 b F b
KBאאאאא
-١٠٦-
٢١١
א
א
אאא
EW Shape (Wide flange shapes
d
b
t1
t2 mm
Ix 106 mm4
Sx 103 mm3
Iy 106 mm4
Sy 103 mm3
mm
mm
mm
W920 x 446ً
٩٣٣
٤٢٣
٤٢٫٧
٢٤٫٠
٨٤٥٠
١٨١١٠
٥٤١
٢٥٦٠
W920 x 201
٩٠٣
٣٠٤
٢٠٫١
١٥٫٢
٣٢٥٠
٧٢٠٠
٩٣٫٧
٦١٦
W840 x 299ً
855
400
٢٩٫٢
١٨٫٢
٤٧٩٠
١١٢٠٠
٣١٢
٩٠٫٤
W840 x 176ً
835
٢٩٢
١٨٫٨
١٤٫٠
٢٤٦٠
٥٨٩٠
٧٧٫٨
٥٨٫٩
W760 x 257ً
773
381
٢٧٫١
١٦٫٦
٣٤١٠
٨٨٢٠
٢٤٩
٨٧٫١
W690 x 217ً
٦٩٥
٣٥٥
٢٤٫٨
١٥٫٤
٢٣٤٠
٦٧٩٠
١٨٤٫٤
٨١٫٥
W610 x 155
611
324
١٩٫٠
١٢٫٧
١٢٩٠
٤٢٢٠
١٠٧٫٨
٧٣٫٩
W530 x 150
543
312
20.3
١٢٫٧
١٠٠٧
٣٧١٠
١٠٣٫٢
٧٣٫٤
W460 x 158
476
284
23.9
15.0
795
٣٣٤٠
٩١٫٦
٦٧٫٦
W410 x 114
420
261
19.3
11.6
462
2200
57.4
٦٢٫٧
W360 x 551
٤٥٥
٤١٨
٦٧٫٦
٤٢٫٠
٢٢٦٠
٩٩٣٠
٨٢٨
١٠٨
W360 x 39
٣٥٣
١٢٨
١٠٫٧
٦٫٥
١٠٢٫٠
٥٧٨
٣٫٧١
٢٧٫٤
Designation
- ١٠٧ -
٢١١
א
א
EW Shape (Wide flange shapes
d
b
t1
t2 mm
Ix 106 mm4
Sx 103 mm3
Iy 106 mm4
Sy 103 mm3
mm
mm
mm
W310 x 143ً
323
309
22.9
14.0
347
٢١٥٠
١١٢٫٤
728
W310 x 60
303
203
١٣٫١
٧٫٥
١٢٩
٨٥١
١٨٫٣٦
180
W310 x 23.8ً
305
101
6.7
5.6
42.9
281
1.174
23.2
W250 x 167ً
289
265
31.8
19.2
298
2060
98.2
741
W250 x 58ً
252
203
13.5
8.0
87
690
18.73
184.5
W200 x 86ً
222
209
20.6
13.0
94.9
855
31.3
300
W200 x 52
206
204
12.6
7.9
52.9
514
17.73
173.8
W200 x 35.9
201
165
10.2
6.2
34.5
343
7.62
92.4
W150 x 37.1
162
154
11.6
8.1
22.2
274
7.12
92.5
W130 x 28.1
131
128
10.9
6.9
10.91
166.6
3.8
59.4
W130 x 23.8
127
127
9.1
6.1
8.87
139.7
3.13
49.3
W100 x 19.3
106
103
8.8
7.1
4.7
88.7
1.607
31.2
Designation
- ١٠٨ -
٢١١
א
א
ES Shapes (American Standard Shapes
d
b
t1
t2 mm
Ix 106 mm4
Sx 103 mm3
Iy 106 mm4
Sy 103 mm3
mm
mm
mm
S610 x 149ً
610
184
22.1
19.0
995
3260
19.9
216
S610 x 134
610
181
22.1
15.8
937
3070
١٨٫٦٩
٢٠٧
S510 x 141ً
508
183
23.3
20.3
670
2640
20.69
226
S510 x 112ً
508
162
20.1
16.3
533
2100
12.32
172.1
S460 x 104ً
٤٥٧
159
17.6
18.1
385
1685
10.03
126.2
S380 x 74ً
381
١٤٣
15.8
14
202
1060
6.53
91.3
S310 x 74
305
١٣٩
16.8
17.4
127
833
٦٫٥٣
٩٤
S250 x 52
254
126
12.5
15.1
61.5
482
3.48
55.2
S200 x 34
203
106
10.8
١١٫٢
27
266
1.794
33.8
S180 x 30
178
97
10
11.4
17.65
198.3
١٫٣١٩
٢٧٫٢
S130 x 22
127
83
8.3
12.5
6.33
99.7
0.695
16.75
S100 x 14.1
102
70
7.4
8.3
2.83
55.5
0.376
10.74
S 75 x 11.2
76
63
6.6
8.9
1.22
32.1
0.244
٧٫٧٥
Designation
- ١٠٩ -
٢١١
א
א
EC Shapes (American Standard Channels
d
b
t1
t2 mm
Ix 106 mm4
Sx 103 mm3
Iy 106 mm4
Sy 103 mm3
mm
mm
mm
C389 x 74ً
381
94
16.5
18.2
188.2
883
4.58
62.1
C389 x 60
381
89
16.5
13.2
145.3
763
3.84
55.5
C310 x 45ً
305
80
12.7
13
67.7
442
2.14
34
C250 x 45ً
254
76
11.1
17.1
42.9
338
1.64
27.6
C230 x 30ً
229
67
10.5
11.4
25.4
222
1.01
19.29
C230 x 22ً
229
63
10.5
7.2
21.4
185
0.80
16.69
C200 x 27.9
203
64
9.9
12.4
18.31
180
0.82
16.6
C180 x 22
178
58
9.3
10.6
11.32
127
0.57
12.9
C150 x 19.3
152
54
8.7
11.1
7.24
95.3
0.44
10.67
C130 x 13.4
127
47
8.1
8.3
3.7
58.3
0.26
7.54
C100 x 10.8
102
43
7.5
8.2
1.911
37.5
0.18
5.74
C75 x 8.9
76
40
6.9
9.0
0.862
22.7
0.13
4.47
Designation
- ١١٠ -
٢١١
א
א
Angles (Equal Legs)
Designation
Mass per Meter Kg / m
Area 2
I ٦ ١٠ 4 mm ٣٧
Sٍ ٣ ١٠ 3 mm ٢٥٩
x or y mm
L 203 x 203 x 25.4ً
٧٥٫٩
mm ٩٦٨٠
L 203 x 203 x 19.0
57.9
7360
29
200
٥٧٫٩
L 152 x 152 x 25.4
55.7
7100
14.78
140.4
47.2
L 152 x 152 x 15.9
36
4590
11.74
92.8
43.9
L 127 x 127 x 9.0
35.1
4480
6.53
74.2
38.6
L 127 x 127 x 12.7
24.1
3070
4.7
51.8
36.3
L 102 x 102 x 19.0
27.5
3510
3.19
46
32.3
L 102 x 102 x 6.4
9.8
1252
1.265
17.21
27.7
L 89 x 89 x 12.7
16.5
2100
1.515
24.4
26.9
L 76 x 76 x 12.7
14
1774
0.924
17.53
23.7
L 64 x 64 x 12.7
11.4
1452
0.512
11.86
20.5
L 51 x 51 x 9.5
7
877
0.1994
5.75
16.15
- ١١١ -
٦٠٫٢
٢١١
א
א
Angles (Unequal Legs)
Designation
L 203 x 150 x 25.4ً
Ix ٦ ١٠ 4 mm ٣٣٫٦
S xٍ ٣ ١٠ 3 mm ٢٤٧
L 203 x 150 x 19.0
٢٦٫٤
L 152 x 102 x 19.0
y
٦٧٫٣
Iy ٦ ١٠ 3 mm ١٦٫١٥
Syٍ ٣ ١٠ 3 mm ١٤٦٫٢
٤١٫٩
١٩٢
٦٥٫٠
١٢٫٧
١١٣٫٤
٣٩٫٦
10.2
102.4
52.8
3.61
48.7
27.4
L 152 x 102 x 9.5
5.62
54.4
49.3
2.04
26.2
23.9
L 127 x 76 x 12.7
3.93
47.7
44.5
1.074
18.85
19.0
L 127 x 76 x 6.4
2.13
25.1
42.2
0.599
10.06
16.7
L 102 x 76 x 12.7
2.1
31
33.8
1.007
18.35
21.0
L 102 x 76 x 6.4
1.15
16.36
31.5
0.566
9.82
18.7
L 89 x 76 x 12.7
1.35
23.1
30.5
0.566
12.45
17.9
L 89 x 76 x 9.5
1.06
17.86
29.5
0.454
9.7
١٦٫٨
L 64 x 51 x 9.5
0.38
8.96
21.1
0.214
5.95
14.8
L 64 x 51 x 6.4
0.27
6.24
20.0
0.1548
4.16
13.4
mm
- ١١٢ -
x mm
٢١١
א
א
Round Tubingٌ
Size and Thickness
Mass per Meter
mm
Kg / m
12 x 2
Area
٠٫٤٩
mm ٠٫٦٢٨
I ٦ ١٠ 4 mm ٠٫٠٨٢
Sٍ ٣ ١٠ 3 mm ٠٫١٣٦
16 x 2
0.687
0.879
0.22
0.275
16 x 3
0.956
١٫٢٥٥
٠٫٢٧٣
٠٫٣٤١
20 x 4
1.569
2.01
0.684
0.684
25 x 4
2.06
2.638
1.508
1.206
25 x 5
2.452
3.14
١٫٦٦٠
١٫٣٣٦
30 x 5
٣٫٠٦٥
٣٫٩٢٥
٣٫١٩٢
٢٫١٢٨
42 x 5
٤٫٥٣٦
٥٫٨٠٩
١٠٫١٣
٤٫٨٢٥
50 x 4
٤٫٥١٢
٥٫٧٧٨
١٥٫٤٠٩
٦٫١٦٤
50 x 5
٥٫٥١٧
٧٫٠٦٥
١٨٫١١٨
٧٫٢٤٧
2
- ١١٣ -
٢١١
א
א
Square Tubing
Square Side
Mass per Meter
Thickness
mm ٢٠
Kg / m ٠٫٨٧
mm ١٫٥
١٫١١
١٫٥
١٫١١
١٫٥
١٫٣٤
١٫٥
١٫٧٦
٢٫٠
٢٫٠٧
٢٫٠
١٫٨٠
١٫٥
٢٫٣٩
٢٫٠
٢٫١٢
١٫٥
٣٫٠٢
٢٫٠
٣٫٧٣
٢٫٥
٦٠
٣٫٦٤
٢٫٠
٧٠
٦٫٣٢
٣٫٠
٨٠
٧٫٢٦
٣٫٠
٢٥
٣٠ ٣٥ ٤٠ ٤٥ ٥٠
- ١١٤ -
٢١١
א
א
Rectangular Tubing
Width , W
Mass per Meter
Height, H
Thickness
mm ٢٠
Kg / m ٠٫٦٧
mm ١٠
mm ١٫٥
٢٥
٠٫٨٧
١٥
١٫٥
٠٫٨٧
١٠
١٫٥
١٫١١
٢٠
١٫٥
١٫٤٥
٢٠
٢٫٠
١٫٣٨
٢٠
١٫٥
١٫٧٦
٢٠
٢٫٠
١٫٥٨
٣٠
١٫٥
٢٫٠٧
٣٠
٢٫٠
٢٫٠٦
٢٥
٢٫٠
٢٫٠٧
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1. Stanley, W. Crawley & Robert, M. Dillon (1993), Steel Buildings, Analysis and Design, 4th Edition, John Wiley & Sons, Inc. 2. Vazirani, V. N. & Ratwani, M. M. (1984), Steel Structures, Analysis. Design and Deatails of Structures, Vol. III, Khanna Publishers, Delhi. 3. Edwin, H. Gaylord, Jr. , Charles, N. Gaylord & James, E. Stallmeyer (1992), Design of Steel Structures, 3rd Edition, McGraw-Hill, Inc. 4. Russell C. Hibbeler (1995), Structural Analysis, 3rd Edition, Prentice Hall International, Inc. 5. Robert Englekirk (1994), Steel Structures, Controlling Behavior Through Design, John Wiley & Sons, Inc.
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W
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126.1 A36 Cc א،א Cc K107.6E50 K.S.IF
א،אאאא KL/r ≥ C c אא،
Kאאאא KL/r < Cc א
: Fa AISC אאא -٣٦-
אא אאאא
٢١١
א
א
InelasticBuckling א• א ،אאא
Fa =
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Fs
Factor of Safety אFsW
Wאא
3
3 (K.L /r) (K.L/r) F.S = 5 + 8 Cc
3
8 C3c
אא (KL/r) =Cc،Fs = 1.67(KL/r) = 0
Fs = 23/12 = 1.92
Elastic Buckling א• א
Euler Equation אא Fa =
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Wא
L/rאSlenderness ratio א • א،אאא C c Wא
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K14 ft.אW 12 x 72אאאאא
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radii Fאאא،אAISCאאא Wאאאא،Eof gyration
Fy = 36000 P.S.I،E = 29000 K.S.I،ry= 5.31 in. ،rx= 5.31 in. ،A = 21.1 in.
Wאא C c Cc =
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= 126.1
(KL/r)= 55.3 =
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(55.3)3 3 (K.L /r) (K.L/r)3 5 3 (55.3) = + − = 1.82 F.S = 5 + 3
8 Cc
8 C3c
3
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אא אאאא
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א
Wאא
2 ⎤ ⎡ ⎡ 2⎤ (55.3) (KL/r) ⎢1 − ⎥F ⎥.36000 y ⎢1 − 2 2 ⎢ ⎥ 2C c ⎦ ⎢ 2 . (126.1) ⎥⎦ Fa = ⎣ =⎣ = 17900 P.S.I F s
1.82
Wאאאאא P = Fa . A = 17900 . (21.1) = 377000 Kips
KEAISCFאאאאא KEAISCFאאאאאW١{٢א
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Bending Moments א٧K א אWאא ABאאאK א אא
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: ١ אW 16 x 36 אא
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28 in
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I = 56.5 in 3 W 16 x 36 C f = 0.6 F Z0.6 (36000) = 22000 P.S.I Y b M = f . S = 22000 x 56.5 = 1240000 in-lb b M = 103 000 ft-lb
1000 + 36 = 1036 lb/ft
:אא
Wאאא W L2 1036 . (28) 2 M= = = 102000 ft-lb 8 8
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٢١١
א
א
Single Rolled Steel Sections : .١٫٢ Broad (Wide) אאא Standard I Beam
Kאאאא،Flange I Beam Built up Sections : .٢٫٢
Wאאאא א •
Lacing Barsא •
אא •
אIא •
-٨٤-
אאא אאאאאא
٢١١
א
א
Web Plates אIא •
אא •
Standard I Beam •
א •
•
-٨٥-
אאא אאאאאא
٢١١
א
א
אאא •
KאאWelded Box •
אאא.٣ Wאאא
Base Plate without Gusset PlatesאE1 Gusseted baseא(2
K אאא
אאKEBearingFאא
אKGusseted baseא KGussetsאאאאא
-٨٦-
אאא אאאאאא
٢١١
א
א
א .1.3
אW2.4א
،א אE٢٫٤אFא אאא אא א K אא،אאאאאאא ،אא
Wאא
2 t = 3W (A 2 − B ) 4
F b
W
א-t
אאאא-P אאא א-A אאא א-B
2L1890אאאJ Fb -٨٧-
אאא אאאאאא
٢١١
א
א
Wא W P=
W ﻣﺴﺎﺣﺔ اﻟﻘﺎﻋﺪة
Wאא
2 = PA 2
א
WAאאא
2 = PB WBאאא 2 WAאאאאאא
PA 2
1 PB 2
− MA = m 2 2
Poisson`s Ratioא 1 m
2 P 2 B M A = (A − ) 2 m
M = f.z 2 P (A 2 − B ) = F × 1 × 1 × t 2 b 6 M 2
-٨٨-
אאא אאאאאא
٢١١
א
א
2 t 2 = 3P (A 2 − B ) m F b
t=
t=
3P (A 2 − B2 ) m F b W،٠٫٢٥א
3P (A 2 − B2 ) F 4 b
אאא א
Kאאא
א(cap)אאאאאא
א(column shaft) اﻟﻌﻤﻮدאא Wאא
t=
9W D 16F D − d b
W אJ t אאאJ W
אאא -D אאJ F b אאאJ d אאאאא K25
Kאא1,5א -٨٩-
אאא אאאאאא
٢١١
א
א
Gusset basesא.٢٫٣
א،א،אאאאא
K
אאאא
אאאאאאאא KE٣{٤אF
אW3.4א
Design of gusset plates אאא .٣٫٣
KE٤{٤אFאאא
Wא
L B−b ) ( 2 2
= 2P =
PL (B − b) 2
אאאא אאא،א אאK א אאא (Gusset plate) אK
Wא -٩٠-
אאא אאאאאא
٢١١
א
א
אא א:٤٫٤ א P L (B − b) ⎛⎜ B − b ⎞⎟ ⎜ 4 ⎟ 4 ⎝ ⎠ P L2 (B − b)2 16
،א א
K١
Design of Cleat Angle אאא .٤٫٣ KBearingsאאאאאאא
1890 אא אאא
א אאאאאK2L Kאאא
-٩١-
אאא אאאאאא
٢١١
א
א
Design of Base Plate א .٥٫٣
אK אאאאא
אאאאא א،א אאK אא Kאא אאאא .٦٫٣
K אאאא אאאאE
אא אeאאאbl KE٥٫٤אF
Wאאא
= 3 ⎜⎜ l - e ⎟⎟ . b ⎝2 ⎠ p Wאא P = 1 . 3 ( l - e).b 2 2 ⎛
⎞
W
p =
4P 3 (l - 2.e).b
אאא KאאאאK
-٩٢-
אאא אאאאאא
٢١١
א
א
:٥٫٤ א
K1
70 tonnesאISHB 300 x 58.8 Kg/m אא
K 40 Kg/cm2،Ebearing capacityF
Wא Wאאאא
اﻟﺤﻤﻞ Z(PFאא ﻣﺴﺎﺣﺔ اﻟﻘﺎﻋﺪة 2
1750 = 70000 = W =א 40
P
40x45אא
38.9Kg/cm 2 = 70000 Wאא 45x40
7.5 = B = AW -٩٣-
אאא אאאאאא
٢١١
א
א
Wאאא t =
3P 2 B 2 (A − ) F 4 b
t=
(7.5) 2 3 x 38.9 ) ((7.5) 2 − 4 1890
1.614= t
١٨=t א
20אא6 x65x65א
Kא
אאK٤ ،،אא
אאא K אאא אאאא אא
אאKא KאE2.54F1אCement Grout
אאאאא
אאאאאאאאאאא אאאאK אא אK אAnchor Bolt א
Kאאאאא
Wאאאא A= P f b -٩٤-
אאא אאאאאא
٢١١
א
א
W (Column loadFאJ P
אאאJ fb א אא
0.95Equivalent RectangleאאKאא אאK א0.80אא
אאאE ٦٫٤אFא אאKmn .AISCאאא
אאW٦٫٤א
אאאאא 2
A = N x BWאK L6040אא
EFאJ N EFא-B EFאJ P
EFאJ bf
Ep.s.i2LFאאאJ Fp
E،2FאJ A
-٩٥-
אאא אאאאאא
٢١١
א
א
( f P = P ) אאא -fP N.B
EFאJ t
אאא -Fb
KאאאBNא، A = P א F b
א אאא1אא
WEquivalent Rectangle א
2 m fP m M = f P (m) = 2 2
f n2 n M = f (n) = P P 2 2 WSection ModulusSא
2 S= M =f . m P 2.F F b b 2 S= M =f . n P 2.F F b b I/C א
W t 1אאא P 1 (t )3 t I= P = P 12 12
-٩٦-
אאא אאאאאא
٢١١
א
א
t C = P WאC 2 W
t3 3 2 P I 12 t P 2 t P S= = = . = C t P 12 t 6 P 2
2 2 I M t P fP . m S= = = = C F 6 2F b b
2 2 t f .n I S= = P = P C 6 2F b
2 2 3. f . n 3.f . m P P t 2P = t 2P = F F b b אאאאAISC אאא
W Fb = Fy Bearing Plates 3. f . m P t = P F y
2 = 3.m
f
P F y
f
f
t P = 2 . n P t P = 2 . m P WAISC אאא F F y y -٩٧-
אאא אאאאאא
٢١١
א
א
:1 KN)383000 lbW 14 x 90אאא
אאא،٧٫٤א(١٧٠٣٫٥ א
K(٣٤٤٫٧KN/m2F50 p.s.i.
W٧٫٤א
: א
Wאאא
A = P = 383000 = 766 in.2 ( ٠٫٥٠ m2) F P
500
Kא28 x 28א 27.7 in.א Wאא
f b = P = 383000 = 489 p.s.i. (٣٣٧١٫١٦Kn/m2) N . B (28) 2
Wא
d = 14.5 in. (36.8 cm) ; bf = 14 in.(35.5 cm) ; m = 8.2 in.(20.8 cm) ; n = 7.35 in.(18.7 cm) -٩٨-
אאא אאאאאא
٢١١
א
א
Kאm m > n f
489 t = 2 . m P = 2. (8.2). = 1.91 in. (4.85 cm) P 36000 Fy
WאאאאאE٥F٢א K٥x٧١x٧١
W2
250 KipsאW 12 x 58A36אא
א אאאאאKE١١١٢KnF K٨{٤א (١٢ Mpa) 1.8 ksiא
W٨٫٤א
-٩٩-
אאא אאאאאא
٢١١
א
א
Wא
، אJ N
אJ B אJ t
Kאאא-m
KאאאJ n
WAאא
A = P / Fp A = 250 kips / 1.8 ksi 2
2
A = 138.9 in. (0.09 m )
א،אא، N = B = 11.8 in.( ٣٠ cm) Km=n
W،אאאא
١٢{١٩in.אאJ d
١٠٫٠١٤in.אJ b
Kאm = n
N = 2m + 0.95 d 2 m = N - 0.95 d = 11.8 - 0.95 x 12.19 2 m = 11.8 - 11.58 = 0.22 in. m = 0.11 in. -١٠٠-
אאא אאאאאא
٢١١
א
א
،א א
Kmאאאm = 1.21 in.א
N = 2m + 0.95 d = 2 x 1.21 + 0.95 x 12.19 N = 2 x 1.21 + 0.95 x 12.19 = 2.42 + 11.58 = 14 in.
١٢in. B
B = 2 n + 0.80 b 2 n = B - 0.80 b = 12 - 0.80 x 10.014 2 n = 3.99 in.
n = 2 in. 250 kips
Kn
fP = = 1.49 k.s.i Wאא 12 x 14 Wאא Fb = 0.75 FY = 0.75 x 36 = 27 k.s.i
Wא،אא
3. f . n2 3 . f . m2 P P t= = F F b b
3 . f . m2 3 x 1.49 x 1.212 P t= = = 0.50 in. F 27 b
-١٠١-
אאא אאאאאא
٢١١
א
א
3 . f . m2 3 x 1.49 x 2 2 P t= = = 0.81 in . 27 F b
Kאא،א א t = 0.81 in.
K٩٫٤אאאא
Kאאא:٩٫٤א
-١٠٢-
אאא אאאאאא
٢١١
א
א
W ٢٤٠٠٠lbא א،A 36אW 10 x 22
אא١٠{٤א٨ in. א KFP =225 P.S.I א
Wא Wאאאא A = R = 24000 = 107 in. 2
F 225 P B = 13.5 in. C = 8in.
١٣٫٥ x ٨= א Wאא
f P = 24000 = 222 P.S.I 8 x 13.5 ٠٫٧٥in. KAISCא Wn١١{٤א
Kא:١٠٫٤א
n = B - K = 13.5 - 0.75 = 6.0 in. 2
2
-١٠٣-
אאא אאאאאא
٢١١
א
א
WאE١٢٫٤אFאא،١in.א
f . n 2 222 .(6.0) 2 M= b = = 3996 in - lb 2 2
Wאא
Fb = 0.75 (36) = 27 K.S.I S = M = 4.0 = 0.148 in.3 F b
Wא
27
Wאאא،א S=bt
3
12 c
W
E C = t F،אJ c 2
אJ t Wא،C
b t3 b t3 b t2 S= = = t 6 t 6 12 2 Kt،١in. (bFאא
-١٠٤-
אאא אאאאאא
٢١١
א
א
Kא:١١٫٤א S=t
2
6
⇒ t = 6.S = 6. (0.148)
t = 0.94 in.،
8 x 13.5 x 1 in.Wא
KאאW١٢٫٤א
AISCאאאאtא Kאאtאא -١٠٥-
אאא אאאאאא
٢١١
א
א
3 . f . n2 3 (222). 6 2 b = = 0.94 in. t= 27000 F b
Wאאאאא
6.S =
3 . f . n2 b F b
KBאאאאא
-١٠٦-
٢١١
א
א
אאא
EW Shape (Wide flange shapes
d
b
t1
t2 mm
Ix 106 mm4
Sx 103 mm3
Iy 106 mm4
Sy 103 mm3
mm
mm
mm
W920 x 446ً
٩٣٣
٤٢٣
٤٢٫٧
٢٤٫٠
٨٤٥٠
١٨١١٠
٥٤١
٢٥٦٠
W920 x 201
٩٠٣
٣٠٤
٢٠٫١
١٥٫٢
٣٢٥٠
٧٢٠٠
٩٣٫٧
٦١٦
W840 x 299ً
855
400
٢٩٫٢
١٨٫٢
٤٧٩٠
١١٢٠٠
٣١٢
٩٠٫٤
W840 x 176ً
835
٢٩٢
١٨٫٨
١٤٫٠
٢٤٦٠
٥٨٩٠
٧٧٫٨
٥٨٫٩
W760 x 257ً
773
381
٢٧٫١
١٦٫٦
٣٤١٠
٨٨٢٠
٢٤٩
٨٧٫١
W690 x 217ً
٦٩٥
٣٥٥
٢٤٫٨
١٥٫٤
٢٣٤٠
٦٧٩٠
١٨٤٫٤
٨١٫٥
W610 x 155
611
324
١٩٫٠
١٢٫٧
١٢٩٠
٤٢٢٠
١٠٧٫٨
٧٣٫٩
W530 x 150
543
312
20.3
١٢٫٧
١٠٠٧
٣٧١٠
١٠٣٫٢
٧٣٫٤
W460 x 158
476
284
23.9
15.0
795
٣٣٤٠
٩١٫٦
٦٧٫٦
W410 x 114
420
261
19.3
11.6
462
2200
57.4
٦٢٫٧
W360 x 551
٤٥٥
٤١٨
٦٧٫٦
٤٢٫٠
٢٢٦٠
٩٩٣٠
٨٢٨
١٠٨
W360 x 39
٣٥٣
١٢٨
١٠٫٧
٦٫٥
١٠٢٫٠
٥٧٨
٣٫٧١
٢٧٫٤
Designation
- ١٠٧ -
٢١١
א
א
EW Shape (Wide flange shapes
d
b
t1
t2 mm
Ix 106 mm4
Sx 103 mm3
Iy 106 mm4
Sy 103 mm3
mm
mm
mm
W310 x 143ً
323
309
22.9
14.0
347
٢١٥٠
١١٢٫٤
728
W310 x 60
303
203
١٣٫١
٧٫٥
١٢٩
٨٥١
١٨٫٣٦
180
W310 x 23.8ً
305
101
6.7
5.6
42.9
281
1.174
23.2
W250 x 167ً
289
265
31.8
19.2
298
2060
98.2
741
W250 x 58ً
252
203
13.5
8.0
87
690
18.73
184.5
W200 x 86ً
222
209
20.6
13.0
94.9
855
31.3
300
W200 x 52
206
204
12.6
7.9
52.9
514
17.73
173.8
W200 x 35.9
201
165
10.2
6.2
34.5
343
7.62
92.4
W150 x 37.1
162
154
11.6
8.1
22.2
274
7.12
92.5
W130 x 28.1
131
128
10.9
6.9
10.91
166.6
3.8
59.4
W130 x 23.8
127
127
9.1
6.1
8.87
139.7
3.13
49.3
W100 x 19.3
106
103
8.8
7.1
4.7
88.7
1.607
31.2
Designation
- ١٠٨ -
٢١١
א
א
ES Shapes (American Standard Shapes
d
b
t1
t2 mm
Ix 106 mm4
Sx 103 mm3
Iy 106 mm4
Sy 103 mm3
mm
mm
mm
S610 x 149ً
610
184
22.1
19.0
995
3260
19.9
216
S610 x 134
610
181
22.1
15.8
937
3070
١٨٫٦٩
٢٠٧
S510 x 141ً
508
183
23.3
20.3
670
2640
20.69
226
S510 x 112ً
508
162
20.1
16.3
533
2100
12.32
172.1
S460 x 104ً
٤٥٧
159
17.6
18.1
385
1685
10.03
126.2
S380 x 74ً
381
١٤٣
15.8
14
202
1060
6.53
91.3
S310 x 74
305
١٣٩
16.8
17.4
127
833
٦٫٥٣
٩٤
S250 x 52
254
126
12.5
15.1
61.5
482
3.48
55.2
S200 x 34
203
106
10.8
١١٫٢
27
266
1.794
33.8
S180 x 30
178
97
10
11.4
17.65
198.3
١٫٣١٩
٢٧٫٢
S130 x 22
127
83
8.3
12.5
6.33
99.7
0.695
16.75
S100 x 14.1
102
70
7.4
8.3
2.83
55.5
0.376
10.74
S 75 x 11.2
76
63
6.6
8.9
1.22
32.1
0.244
٧٫٧٥
Designation
- ١٠٩ -
٢١١
א
א
EC Shapes (American Standard Channels
d
b
t1
t2 mm
Ix 106 mm4
Sx 103 mm3
Iy 106 mm4
Sy 103 mm3
mm
mm
mm
C389 x 74ً
381
94
16.5
18.2
188.2
883
4.58
62.1
C389 x 60
381
89
16.5
13.2
145.3
763
3.84
55.5
C310 x 45ً
305
80
12.7
13
67.7
442
2.14
34
C250 x 45ً
254
76
11.1
17.1
42.9
338
1.64
27.6
C230 x 30ً
229
67
10.5
11.4
25.4
222
1.01
19.29
C230 x 22ً
229
63
10.5
7.2
21.4
185
0.80
16.69
C200 x 27.9
203
64
9.9
12.4
18.31
180
0.82
16.6
C180 x 22
178
58
9.3
10.6
11.32
127
0.57
12.9
C150 x 19.3
152
54
8.7
11.1
7.24
95.3
0.44
10.67
C130 x 13.4
127
47
8.1
8.3
3.7
58.3
0.26
7.54
C100 x 10.8
102
43
7.5
8.2
1.911
37.5
0.18
5.74
C75 x 8.9
76
40
6.9
9.0
0.862
22.7
0.13
4.47
Designation
- ١١٠ -
٢١١
א
א
Angles (Equal Legs)
Designation
Mass per Meter Kg / m
Area 2
I ٦ ١٠ 4 mm ٣٧
Sٍ ٣ ١٠ 3 mm ٢٥٩
x or y mm
L 203 x 203 x 25.4ً
٧٥٫٩
mm ٩٦٨٠
L 203 x 203 x 19.0
57.9
7360
29
200
٥٧٫٩
L 152 x 152 x 25.4
55.7
7100
14.78
140.4
47.2
L 152 x 152 x 15.9
36
4590
11.74
92.8
43.9
L 127 x 127 x 9.0
35.1
4480
6.53
74.2
38.6
L 127 x 127 x 12.7
24.1
3070
4.7
51.8
36.3
L 102 x 102 x 19.0
27.5
3510
3.19
46
32.3
L 102 x 102 x 6.4
9.8
1252
1.265
17.21
27.7
L 89 x 89 x 12.7
16.5
2100
1.515
24.4
26.9
L 76 x 76 x 12.7
14
1774
0.924
17.53
23.7
L 64 x 64 x 12.7
11.4
1452
0.512
11.86
20.5
L 51 x 51 x 9.5
7
877
0.1994
5.75
16.15
- ١١١ -
٦٠٫٢
٢١١
א
א
Angles (Unequal Legs)
Designation
L 203 x 150 x 25.4ً
Ix ٦ ١٠ 4 mm ٣٣٫٦
S xٍ ٣ ١٠ 3 mm ٢٤٧
L 203 x 150 x 19.0
٢٦٫٤
L 152 x 102 x 19.0
y
٦٧٫٣
Iy ٦ ١٠ 3 mm ١٦٫١٥
Syٍ ٣ ١٠ 3 mm ١٤٦٫٢
٤١٫٩
١٩٢
٦٥٫٠
١٢٫٧
١١٣٫٤
٣٩٫٦
10.2
102.4
52.8
3.61
48.7
27.4
L 152 x 102 x 9.5
5.62
54.4
49.3
2.04
26.2
23.9
L 127 x 76 x 12.7
3.93
47.7
44.5
1.074
18.85
19.0
L 127 x 76 x 6.4
2.13
25.1
42.2
0.599
10.06
16.7
L 102 x 76 x 12.7
2.1
31
33.8
1.007
18.35
21.0
L 102 x 76 x 6.4
1.15
16.36
31.5
0.566
9.82
18.7
L 89 x 76 x 12.7
1.35
23.1
30.5
0.566
12.45
17.9
L 89 x 76 x 9.5
1.06
17.86
29.5
0.454
9.7
١٦٫٨
L 64 x 51 x 9.5
0.38
8.96
21.1
0.214
5.95
14.8
L 64 x 51 x 6.4
0.27
6.24
20.0
0.1548
4.16
13.4
mm
- ١١٢ -
x mm
٢١١
א
א
Round Tubingٌ
Size and Thickness
Mass per Meter
mm
Kg / m
12 x 2
Area
٠٫٤٩
mm ٠٫٦٢٨
I ٦ ١٠ 4 mm ٠٫٠٨٢
Sٍ ٣ ١٠ 3 mm ٠٫١٣٦
16 x 2
0.687
0.879
0.22
0.275
16 x 3
0.956
١٫٢٥٥
٠٫٢٧٣
٠٫٣٤١
20 x 4
1.569
2.01
0.684
0.684
25 x 4
2.06
2.638
1.508
1.206
25 x 5
2.452
3.14
١٫٦٦٠
١٫٣٣٦
30 x 5
٣٫٠٦٥
٣٫٩٢٥
٣٫١٩٢
٢٫١٢٨
42 x 5
٤٫٥٣٦
٥٫٨٠٩
١٠٫١٣
٤٫٨٢٥
50 x 4
٤٫٥١٢
٥٫٧٧٨
١٥٫٤٠٩
٦٫١٦٤
50 x 5
٥٫٥١٧
٧٫٠٦٥
١٨٫١١٨
٧٫٢٤٧
2
- ١١٣ -
٢١١
א
א
Square Tubing
Square Side
Mass per Meter
Thickness
mm ٢٠
Kg / m ٠٫٨٧
mm ١٫٥
١٫١١
١٫٥
١٫١١
١٫٥
١٫٣٤
١٫٥
١٫٧٦
٢٫٠
٢٫٠٧
٢٫٠
١٫٨٠
١٫٥
٢٫٣٩
٢٫٠
٢٫١٢
١٫٥
٣٫٠٢
٢٫٠
٣٫٧٣
٢٫٥
٦٠
٣٫٦٤
٢٫٠
٧٠
٦٫٣٢
٣٫٠
٨٠
٧٫٢٦
٣٫٠
٢٥
٣٠ ٣٥ ٤٠ ٤٥ ٥٠
- ١١٤ -
٢١١
א
א
Rectangular Tubing
Width , W
Mass per Meter
Height, H
Thickness
mm ٢٠
Kg / m ٠٫٦٧
mm ١٠
mm ١٫٥
٢٥
٠٫٨٧
١٥
١٫٥
٠٫٨٧
١٠
١٫٥
١٫١١
٢٠
١٫٥
١٫٤٥
٢٠
٢٫٠
١٫٣٨
٢٠
١٫٥
١٫٧٦
٢٠
٢٫٠
١٫٥٨
٣٠
١٫٥
٢٫٠٧
٣٠
٢٫٠
٢٫٠٦
٢٥
٢٫٠
٢٫٠٧
٢٠
٢٫٠
٢٫٢٥
٢٥
٢٫٠
٢٫٣٩
٣٠
٢٫٠
٣٫٠٢
٤٠
٢٫٠
٣٠
٤٠
٤٥
٥٠
٦٠
- ١١٥ -
אא
٢١١
א
א
1. Stanley, W. Crawley & Robert, M. Dillon (1993), Steel Buildings, Analysis and Design, 4th Edition, John Wiley & Sons, Inc. 2. Vazirani, V. N. & Ratwani, M. M. (1984), Steel Structures, Analysis. Design and Deatails of Structures, Vol. III, Khanna Publishers, Delhi. 3. Edwin, H. Gaylord, Jr. , Charles, N. Gaylord & James, E. Stallmeyer (1992), Design of Steel Structures, 3rd Edition, McGraw-Hill, Inc. 4. Russell C. Hibbeler (1995), Structural Analysis, 3rd Edition, Prentice Hall International, Inc. 5. Robert Englekirk (1994), Steel Structures, Controlling Behavior Through Design, John Wiley & Sons, Inc.
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