I guess you are talking about Thin (not thick) wall tubes
(classification depends on behavior against "pandeo" -sory dont know english word for it
)
Generally:
-THICK: high relationship D/t, transverse section ovalizes, local "pandeo" forms while resistent momentum decreases, here resistence can exceed theoric plastic momentum due too deformation hardening
-THIN: low relationship D/t, many "pandeo" waves forms quickly with almost no ovalization, resistence falls quickly
To calculate flexion in thin wall tubes quickly (simplifications made):
d^2 w(x) / dx^2 = M (x) / EI
So, you apply a momentum M, E depends on material (for steel use 2.100.000 kg/cm2 or 200.000 MPa) and I = (π/4)*(Re^4 - Ri^4).
You do the math, have fun
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