Find allowable axial compressive load

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To find the allowable axial compressive load for a 3in by 2in by .25in aluminum-alloy angle acting as a pin-ended column, the factor of safety is set at 2.5, and the least radius of gyration is .43. The modulus of elasticity for the 17 S-T aluminum alloy is 10,600 ksi. The area of the angle is confirmed to be 1.19 in^2, calculated based on its dimensions. The discussion emphasizes the importance of using the ultimate buckling stress formula to determine the load, with references to Euler beam buckling concepts. Understanding the cross-sectional area and applying the correct formulas are crucial for solving the problem effectively.
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Homework Statement


Find the allowable axial compressive load for a 3in by 2in by .25in 17 S-T aluminum-alloy angle 43in long. It acts as a pin-ended column.
Assume: Factor of safety = 2.5
Least radius of gyration, r = .43
Area = 1.19 in^2


Homework Equations


17 S-T gives modulus of elasticity of:
E = 10,600 ksi

some formulas (im sure I am missing some)
f.s. = P_u/P_all
Stress = P/A

The Attempt at a Solution


P_all = P_u/f.s = P_u/2.5

im really confused. i don't understand how there could be 3inX2inX.25in and then 43in long for one. then there is a weird area of 1.19 in^2

can someone help me with this? they didnt give a diagram either
 
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I'm assuming one leg is 3", the other is 2" and the bar is 1/4" thick. The whole thing is then 43" long. Is this an Euler beam buckling problem?
 
The most important formula you are missing is the formula for ultimate buckling stress. Are you familiar with it? Also, regarding the area of the angle, do you know what a 3 x2 x 1/4" angle looks like? See the site below for a cross section. The thickness is 1/4", and the legs are 3" and 2" , respectively. The cross sectional area works out to 1.19 in^2. The length is 43 inches (into the plane of the page). http://www.engineersedge.com/angle_unequal.htm
 
> Is this an Euler beam buckling problem?
Google "Euler buckling" and you will have a lot of relevant reading to get you started.
 
jrizzle wrote: "stress = P/A; P_all = P_u/f.s."

Excellent, jrizzle. That's correct. And your first equation, quoted above, can be written P_u = sigmacr*A. Therefore, can you find in your textbook a formula for sigmacr or P_u? Notice the hints given by PhanthomJay and mathmate. Hint: P_u might sometimes be called Pcr.
 

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