WANG An-ping, TIAN Zong-shu. THREE-DIMENSIONAL STRESS CONCENTRATION OF A PLATE WITH SEMICIRCULAR NOTCHES UNDER TENSION AND BENDING[J]. Engineering Mechanics, 2005, 22(4): 52-57,1.
Citation:
WANG An-ping, TIAN Zong-shu. THREE-DIMENSIONAL STRESS CONCENTRATION OF A PLATE WITH SEMICIRCULAR NOTCHES UNDER TENSION AND BENDING[J]. Engineering Mechanics, 2005, 22(4): 52-57,1.
WANG An-ping, TIAN Zong-shu. THREE-DIMENSIONAL STRESS CONCENTRATION OF A PLATE WITH SEMICIRCULAR NOTCHES UNDER TENSION AND BENDING[J]. Engineering Mechanics, 2005, 22(4): 52-57,1.
Citation:
WANG An-ping, TIAN Zong-shu. THREE-DIMENSIONAL STRESS CONCENTRATION OF A PLATE WITH SEMICIRCULAR NOTCHES UNDER TENSION AND BENDING[J]. Engineering Mechanics, 2005, 22(4): 52-57,1.
An 8-node solid assumed stress finite element with a traction-free cylindrical surface is developed based on the Hellinger-Reissner principle. The assumed stress field satisfies the equilibrium equations in the element as well as the traction-free conditions over the cylindrical boundary. In the limit plane problem case, the assumed stress field also satisfies compatibility conditions. The stress concentration problems of a thick or thin plate with semicircular notches under uniform tension and in-plane bending are analyzed using the hybrid stress element. Numerical results show that good accuracy is achieved for the distributions of the circumferential stresses and the stress concentration factors.
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