Selection of complex equivalent stress for two different variants of the plane stress state

V. Nazarov
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Abstract

To describe the creep rupture process under complex stress, various equivalent stresses are considered. From them, the equivalent stress at which the total error of the difference between the experimental and theoretical values takes the smallest value among the considered equivalent stresses is selected. In this paper, three basic equivalent stresses are considered, as well as two complex equivalent stresses, which are a linear combination of the basic ones with one material parameter. The analysis of the total errors in the considered experimental data shows that, with the simultaneous effect of internal pressure and the axial force on the wall of tubular specimens (or biaxial tension of a plane element), a complex equivalent stress should be used in the form of a combination of the maximum normal stress and the Mises stress. For simultaneous torsion and tension of tubular specimens (or simultaneous tension and compression of a plane element), a complex equivalent stress should be used in the form of a combination of the maximum normal stress and the doubled maximum tangential stress.
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选取两种不同平面应力状态的复合等效应力
为了描述复杂应力作用下的蠕变断裂过程,考虑了各种等效应力。从中选取在考虑的等效应力中,实验值与理论值之差的总误差最小的等效应力。本文考虑了三个基本等效应力,以及两个复合等效应力,它们是基本等效应力与一个材料参数的线性组合。考虑的实验数据的总误差分析表明,在管状试件壁面上同时存在内压和轴向力(或平面单元的双轴拉力)的情况下,应采用最大法向应力和米塞斯应力组合形式的复合等效应力。对于管状试件的同时扭转和拉伸(或平面单元的同时拉伸和压缩),应采用最大正应力和最大切向应力两倍的组合形式的复杂等效应力。
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