Steel Designers Manual - TheBestFriend.org

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Steel Designers' Manual - 6th Edition (2003)
664 Worked example
The
Steel Construction
Institute
Silwood Park, Ascot, Berks SL5 7QN
Therefore
Subject Chapter ref.
DESIGN OF COMPOSITE
COLUMN
Design code
Made by RML Sheet no.
EUROCODE 4
(1990 DRAFT)
Checked byGWO
tensile force in web depth (225.8 - 2Y) = compressive force in concrete
452
(225.8 - 2Y) ¥ 10.5 ¥ 355 = [(Y + 69.8 + 17.3) ¥ 400 - - 17.3
2
¥ 225.9 - Y ¥ 10.5] ¥ 0.45 ¥ 30
841.7 ¥ 10 3 - 7.46 ¥ 10 3 Y = 5.4 ¥ 10 3 Y + 470.3 ¥ 10 3 - 3.05 ¥ 10 3
- 52.7 ¥ 10 3 - 0.14 ¥ 10 3 Y
or (5.4 + 7.46 - 0.14) Y = 841.7 - 470.3 + 3.05 + 52.7
\ Y = 33.6 mm
Hence plastic neutral axis depth from edge of slab is
Y p = 33.6 + 69.8 + 17.3 = 120.7 mm
Plastic moment of resistance about x-x axis:
Take moments about PNA at depth Y p
Mpx = 17.3 ¥ 255.9 ¥ 355 ¥ 10-6 ¥ (260.4 - 17.3)
+ ¥ 0.87 ¥ 460 ¥ 10-6 ¥ (400 - 30 ¥ 2 - 12)
+ 10.5 ¥ ¥ 355 ¥ 10 -6 + 10.5 ¥ ¥ 355 ¥ 10-6 + (5.4 Y + 470.3 - 3.05 - 52.7 - 0.14 Y) ¥ 10-3 2
Y ( 225. 8 - Y )
2
¥ Yp/2
2
452
2
2
Mpx = 382.0 + 29.7 + 2.1 + 68.8 + 35.7 for Y = 33.6 mm
Mpx = 518.3 kNm
0.9 Mpx = 466.5 kNm
Compressive resistance of column with co-existing moment (equation 22.5)
This is equivalent to the resistance of the concrete in compression (see text)
P o,x = 148.1 ¥ 10 3 ¥ 0.45 ¥ 30 ¥ 10 -3
= 1999 kN
22
3