mikek396
Mechanical
- May 28, 2022
- 29
First project I'm taking on myself and totally having imposter syndrome. Project is to provide load ratings for some aluminum (6061-T6) beams that will span between A-frame legs to be used for rigging. Beam sizes S6x5.1, S8x8.81, S10x12.1, lengths in 8'-15'.
I have a previous engineer's calculations - he took a very simplistic Sigma_y = M/S approach to calculate max loads. He also used Omega = 1.67 (from AISC).
This seems too simple to me as this method has absolutely no consideration for LTB, and also uses the incorrect omega based on the Aluminum Design manual. However, using the Aluminum Design Manual, I am calculating what seem to be extremely conservative values - less than half of those previously calculated. Am I missing something here? Can this really be as simple as M/S? Am I totally overthinking this, or did the previous engineer oversimplify?
Additionally, can somebody point me to a reference for any FOS I should be applying to these beams? I assume there is an additional factor to be added for rigging beams above the 1.95 or 1.65 in the Aluminum manual for flexure.
I have a previous engineer's calculations - he took a very simplistic Sigma_y = M/S approach to calculate max loads. He also used Omega = 1.67 (from AISC).
This seems too simple to me as this method has absolutely no consideration for LTB, and also uses the incorrect omega based on the Aluminum Design manual. However, using the Aluminum Design Manual, I am calculating what seem to be extremely conservative values - less than half of those previously calculated. Am I missing something here? Can this really be as simple as M/S? Am I totally overthinking this, or did the previous engineer oversimplify?
Additionally, can somebody point me to a reference for any FOS I should be applying to these beams? I assume there is an additional factor to be added for rigging beams above the 1.95 or 1.65 in the Aluminum manual for flexure.