Modeling of ratcheting behavior under multiaxial cyclic loading

被引:0
|
作者
X. Chen
K. S. Kim
机构
[1] School of Chemical Engineering and Technics,
[2] Tianjin University,undefined
[3] Tianjin 300072,undefined
[4] P.R. China (E-mail: xchen@eyou.com),undefined
[5] Department of Mechanical Engineering,undefined
[6] Pohang University of Science and Technics,undefined
[7] Pohang 790-784,undefined
[8] Korea (E-mail: illini@postech.ac.kr),undefined
来源
Acta Mechanica | 2003年 / 163卷
关键词
Experimental Data; Carbon Steel; Exponential Function; Cyclic Loading; Yield Surface;
D O I
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中图分类号
学科分类号
摘要
 A two-surface plasticity theory is used to predict ratcheting strain under multiaxial loading. A kinematic hardening rule that combines the Mroz and Ziegler hardening rules is employed along with the plastic modulus given as an exponential function of the distance between the yield surface and the bounding surface. Model results are compared with the experimental data obtained on medium carbon steel under proportional and nonproportional axial-torsional loading. The model predicts reasonably well the experimental ratcheting behavior at relatively low cycles. Predictions overshoot the actual ratcheting strains at high cycles, yet the results look favorable compared with other data found in the literature.
引用
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页码:9 / 23
页数:14
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