- #1
Mike.
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Homework Statement
The cross-section of an idealised I section beam has overall dimensions 12mm x 240mm deep. If the web and Flange are both 25mm Thick, determine the second moment of area of the section.
If the maximum bending stress is limited to 100MN/m2, determine the maximum bending moment the beam can withstand
Homework Equations
∂ = Stress Applied
Y = Distance form Neutral Axis
M = Applied moment
I = Second moment of area
E = Youngs modulus
R = Radius (measured to neutral axis)
(∂/y) = (M/I) = (E/R)
I = b . (d^3)
----------
12
Y = depth/2
The Attempt at a Solution
I = b . (d^3)
----------
12
b= 125-25 = 95
d= 240-50 = 190
I = [0.095 . (0.19^3)] / 12 = 5.4x10^-5
(∂/y) = (M/I)
100x10^6 = M
____________ _____________
{(.24/2)=0.12} {5.43x10^-5}
100x10^6
---------- x 5.43x10^-5 = M
0.12
M= 45000nm
45KNM
Is this correct.
Mike
Also I've just tryed the next (and last) one
Which i have no clue about.
A steel bar of rectangular cross-section is bent into a circular arc of 15m. The with of the cross-section is twice its depth.
If the maximum stress due to bending is 60MN/m2, determine the dimensions of the section and the magnitude of the applied moment.
Take young's modulus as 200GN/m2
Dont even no where to start on that one
Mike
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