אאא
اﻟﻤﺆﺳﺴﺔ اﻟﻌﺎﻣﺔ ﻟﻠﺘﻌﻠﻴﻢ اﻟﻔﻨﻲ واﻟﺘﺪرﻳﺐ اﻟﻤﻬﻨﻲ אאאא
א
٢١١
٢١١
א
א
W،،אא،א
אאאאאאאאאא א א ،א א א א א א אאאאאא Wאאאאאא K אאא אאאאאאא א ،א אא א א א א א א א ، א،אאאא אאאאאאאאאאאאא א א ،א Kאא،אא א ? ? ? א ? א א Kאאאאאא אאאאאאא ،א،אאאא Kאאאאא W א א א א Kא
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٢١١
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KאKKK אאאאאאאאא Kאאאאא
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אא א אאא
Kאא
א א א
WאKא
אאאאאא א א •
אאאא אאאאא،א Kא
Kאאאאאאאא •
Kאאאאאאא •
א אאא אאאא • Kאאא
אאא אאאא Kאאא
אא א אאאא
Kאאאאאא
אאא
اﻟﻤﺆﺳﺴﺔ اﻟﻌﺎﻣﺔ ﻟﻠﺘﻌﻠﻴﻢ اﻟﻔﻨﻲ واﻟﺘﺪرﻳﺐ اﻟﻤﻬﻨﻲ אאאא
א
אאא
אאא
١
אא אאא
٢١١
א
א
אאאאאאאWאא Kאאאאא
Wאא Wאאא
Kאאאאאאאא • Kאאא • Kאאא •
Kאאאא •
K٪100אאאWאאא Wאא K8
Wאא
Kאאאא • Kאא •
Wאא Kאא
-١-
אא אאא
٢١١
א
א
אאא .١ אאאאאאא
א א א א א א
אאא אאאאאKא א א א א א א א אאאאא Kא Wאאאאא K• א
Kאא• א K• א
Kאא •
KאKKKא• א Areas of using steel in structures
א א א א .2 Wאאא
Bridges א.١٫٢
א א אאאאאא
אאאאאTrusses אא אאאאאא
אאאאאאאאא
K
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Tunnels א.5.2
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Kאאאאאאא
Power Transmission Towersאאא.6.2
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א
Tanksא א.7.2
אא א א א אא א
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K
Piles and Sheet Piles
אאאא א.9.2
אאאאscrew piles אאאא
אאCofferdamsאאאאsheet piles
אאאאאאאאא Kא
אאא א.10.2
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Structural Analysis and Design אאא.٣ אKא אא
אאאא אKאאא
אאאK אאא
Wאא
KGeneral Layout of Structures אא• א
אאא • K
Kאאא •
KאאאאEFא • -٥-
אא אאא
٢١١
א
א
אאאאאא• א Kאא
Wאאאא
Kאאא• א
Kאאאא • Kאאאא •
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אאאאאא אאאא
Kאאאאאאא
SI UNITS אא א.٤ ، אאאא ،EKilogram, KgFEFאא،EMeter, mFEFאWא
1.1אKאENewton, NFEF،(Seconds, S) EFאא
אאאא אאאאא٢{١א،
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אאא א:١٫١ א E٢Fא
א
Square meter (m2)
Area
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Meter per Second squared (m/s2)
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Kilogram-meter per second squared (Kg-m/s )=Newton (N)
אZא
Newton per squared meter (N/m2) = Pascal
א
Acceleration
א
Force
א Stress
-٦-
אא אאא
٢١١
א
א
אאאאא א:٢٫١ א אאא 1 in.
אאא
= 25.400 mm = 0.25400 m = 645.16 mm2 = 6.451600 x 10- 4 m2
1 in2.
= 304.800 mm = 0.304800 m
1 ft.
Z4.44822 N
1 lb.
= 4448.222N = 4.448222 KN
1 Kip
1 PSI (Pounds per square inch)
L 1 PSF (pounds per square foot)
L
1 KSI (Kips per square inch)
L
=6.894757 Kn/m2=0.006895 Mn/m2=0.006895 N/mm2 = 47.880 N/m2 = 0.047800 Kn/m2 = 6.894757 Mn/m2= 6.894757 MPa
Steel structures characteristics אאא .٥ Wאאאא
Kאאאא • אא א• א Kאאא
אאאאא• א Kאאאאא
אאאא• א א
Kאאאאא • Kא •
אאאאא • Kאאאא
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אא אאא
٢١١
א
א
אאאא • Kאאא
אאאDuctility• א Kא
אאElastic Limitא • Kאאא
K• א אאאא .٦ Wאא
אאאאא • אאאא
K
٥٠٠אא • אא١٢٠٠ Kאאא٣א
אא .7 אאאא
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0.1% א
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א
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Pig IronEאF •
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Kאאאאא Cast IronEאFא •
Kאא4%2%א Steelא• א
K2%אא
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Web PlateאאאGusset Plate W
KE٣٫١אFKאאאאאWWeb • א
Kאאא: Flange • א
KאאאWGusset Plateא •
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KאWPitch• א
KאאאWClearance• א KאPlateWFiller• א
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( ٤٫١ )اMEMiscellaneousFWEWideF
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٢١١
א
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American Standard Beam אא• א
(٥٫١ )אS (Standard)
American Standard Beam אאא:٥٫١א
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American Standard Channel and Miscellaneous Channel MC אא אC (American Standard Channel)
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American Standard Channel and Miscellaneous Channel
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Structural Tees Tאא• א
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Structural Tees
T אאא:٨٫١א
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٢١١
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Pipes and Structural Tubing
אאא• א
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Pipe and Structural Tubing א:١٠٫١א
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Built up Sections •
.( 11.1 )אאא
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אאKאאאאאאאא Wאאא١٢٫١א Standard I-Beam אא EA
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Tee Section
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אא אאא
٢١١
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K(15.1 א 14.1אF
60 60
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(א )א• א
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אא א: ٢٠٫١א אאא.١٠ אאאאאא אאא אKאאא אאאאאאאא
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Ultimate Strength
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Young‘s Modulus of Elasticity א -ب
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Tensile Stress (K.S.I) 58-80
4137 4344 4620 4826
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2483
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Minimum Yield Stress (K.S.I) 36
א A36 A441 A242 A588
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א א.1.2
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Traffic Loads for Bridges
א .4.2
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א100J 20 אאא2L100 •
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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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Ultimate Tensile Stress of the Steel אא -Fu
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: ﺣﻴﺚ إن (Gross Area) א א:
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אא אאאא
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Compression Membersא.٦ אאEFאא KE٧{٢ אFא
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W Euler Formula •
אאאאא،אאא
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Wאאאא
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٢١١
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א
P=
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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 =
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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 =
2 1 − (KL/r) F y 2C c2
Fs
Factor of Safety אFsW
Wאא
5 3 (K.L /r) (K.L/r)3 F.S = + 3 8 Cc 8 C3c
(KL/r) =Cc،Fs = 1.67(KL/r) = 0 אא
Fs = 23/12 = 1.92
Elastic Buckling א• א
Euler Equation אא Fa =
Wאאאאא π2 E
(L/r) 2 . Fs
3 (K.L /r) (K.L/r)3 5 F.S = + 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
radii Fאאא،אAISCאאא
:א
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 5 3 (K.L /r) (K.L/r)3 5 3 (55.3) = + − = 1.82 F.S = + 3 8 Cc 3 8 (126.1) 8 (126.1)3 8 C3c
-٣٨-
אא אאאא
٢١١
א
א
Wאא
2 2 (55.3) (KL/r) F 1 − .36000 y 1 − 2 2 2C c 2 . (126.1) Fa = = = 17900 P.S.I F s
1.82
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W ﻡﺴﺎﺣﺔ اﻟﻘﺎﻋﺪة
Wאא
2 = PA 2
א
WAאאא
2 = PB WBאאא 2 WAאאאאאא
PA 2 1 PB 2 − MA = 2 m 2
Poisson`s Ratioא 1 m
2 P 2 B M A = (A − ) 2 m
M = f.z 2 P B 2 (A − ) = F × 1 ×1× t 2 b 6 M 2
-٨٨-
אאא אאאאאא
٢١١
א
א
2 3P B 2 2 ) t = (A − 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 אאאא
K
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 (Gusset plate) אK אאא
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
אא אאא 1890
א אאאאאK2L Kאאא
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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
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אאא אאאאאא
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א
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K1
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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 − ) 1890 4
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
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אאא אאאאאא
٢١١
א
א
( f P = P ) אאא -fP N.B
EFאJ t
אאא -Fb
KאאאBNא، A = P א F b
אאאא1אא
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 P P S= = = 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 Fy 36000
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
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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 . m2 3. f . n2 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 = = 0.81 in . t= 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 = = 3996 in - lb M= b 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 3 b t3 b t2 S= bt = = 12
t 2
6t
6
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 t= = = 0.94 in. 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
mm
Ix 106 mm4
Sx 103 mm3
Iy 106 mm4
Sy 103 mm3
22.9
14.0
347
٢١٥٠
١١٢٫٤
728
203
١٣٫١
٧٫٥
١٢٩
٨٥١
١٨٫٣٦
180
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
d
b
t1
t2
mm
mm
mm
W310 x 143ً
323
309
W310 x 60
303
W310 x 23.8ً
Designation
- ١٠٨ -
٢١١
א
א
ES Shapes (American Standard Shapes
mm
Ix 106 mm4
Sx 103 mm3
Iy 106 mm4
Sy 103 mm3
22.1
19.0
995
3260
19.9
216
181
22.1
15.8
937
3070
١٨٫٦٩
٢٠٧
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
d
b
t1
t2
mm
mm
mm
S610 x 149ً
610
184
S610 x 134
610
S510 x 141ً
Designation
- ١٠٩ -
٢١١
א
א
EC Shapes (American Standard Channels
mm
Ix 106 mm4
Sx 103 mm3
Iy 106 mm4
Sy 103 mm3
16.5
18.2
188.2
883
4.58
62.1
89
16.5
13.2
145.3
763
3.84
55.5
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
d
b
t1
t2
mm
mm
mm
C389 x 74ً
381
94
C389 x 60
381
C310 x 45ً
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)
L 203 x 150 x 25.4ً
Ix ٦ ١٠ 4 mm ٣٣٫٦
Sxٍ ٣ ١٠ 3 mm ٢٤٧
٦٧٫٣
Iy ٦ ١٠ 3 mm ١٦٫١٥
Syٍ ٣ ١٠ 3 mm ١٤٦٫٢
٤١٫٩
L 203 x 150 x 19.0
٢٦٫٤
١٩٢
٦٥٫٠
١٢٫٧
١١٣٫٤
٣٩٫٦
L 152 x 102 x 19.0
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
Designation
y 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
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٣٫٦٤
٢٫٠
٧٠
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٣٫٠
٨٠
٧٫٢٦
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٣٠ ٣٥ ٤٠ ٤٥ ٥٠
- ١١٤ -
٢١١
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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
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٢٠
٢٫٠
١٫٥٨
٣٠
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٣٠
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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 -
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אא 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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