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material design stress | |||
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Posted by: Albert ® 12/16/2004, 04:58:09 Author Profile Mail author Edit |
For ductile material, I have been using material shear yield stress = 0.58 x material tension yield stress.....and also bearing yield stress = 1.6 material tensin stress. I prepared the design calculation and the third party reviewer asked how I support the above figure. Does anyone know of the source reference? One book refer the bearing stress back to ASME code on rivet design. |
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Re: material design stress | |||
Re: material design stress -- Albert | Post Reply | Top of thread | Forum |
Posted by: crbeebe ® 01/15/2005, 22:56:10 Author Profile Mail author Edit |
The 0.58 factor can be derived from the Von-Mises criterion. Von-Mises criterion is a failure theory that is based on the 3D stress state, and yields a scalar value for stress—the “von Mises stress”. Per the theory, failure occurs when the VM stress exceeds the tensile strength of the material. For your example, let’s assume a pure shear state in the material in a single plane. The VM equation for such a stress state reduces to VM stress = sqrt ( 1/2 * (6* tau^2 )) = sqrt (3) * tau where “tau” is shear stress. Since the shear state is assumed to be pure shear stress, failure will occur when tau reaches the shear strength (“tau-yield”) of the material. And, since failure occurs when the VM stress exceeds the tensile strength of the material, VM stress = tensile strength = sqrt (3) * tau-yield
I don’t have a source for the 1.6 bearing stress factor.
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Re: material design stress | |||
Re: Re: material design stress -- crbeebe | Post Reply | Top of thread | Forum |
Posted by: Albert ® 01/16/2005, 20:20:30 Author Profile Mail author Edit |
Crbeebe....thanks for the help. |
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