Time left 1:28:24 If a critical point at structural element is subjected to the stress shown on the 2D element, determine the factor of safety (FS) against yielding according to the maximum shear stress theory and the maximum distortion energy theory The material has a tensile yielding stress Sy = 600 Mpa. S1 (Principle stress 1)- 52 (Principle stress 2) FS (maximum shear stress theory) = FS (maximum energy of distortion theory) + 150 Mpa 50 Mpa 250 Mpa

Elements Of Electromagnetics
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Time left 1:28:24
If a critical point at structural element is subjected to the stress shown on the 2D element, determine the factor of safety (FS) against
yielding according to the maximum shear stress theory and the maximum distortion energy theory.
The material has a tensile yielding stress Sy = 600 Mpa.
S1 (Principle stress 1) -
52 (Principle stress 2)
FS (maximum shear stress theory)=
FS (maximum energy of distortion theory) -
150 Mpa
50 Mpa
250 Mpa
Transcribed Image Text:Time left 1:28:24 If a critical point at structural element is subjected to the stress shown on the 2D element, determine the factor of safety (FS) against yielding according to the maximum shear stress theory and the maximum distortion energy theory. The material has a tensile yielding stress Sy = 600 Mpa. S1 (Principle stress 1) - 52 (Principle stress 2) FS (maximum shear stress theory)= FS (maximum energy of distortion theory) - 150 Mpa 50 Mpa 250 Mpa
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