Journal of Applied Mechanics, Transactions ASME, volume 48, issue 2, pages 297-301

Constitutive Equations of Elastoplastic Materials With Anisotropic Hardening and Elastic-Plastic Transition

Publication typeJournal Article
Publication date1981-06-01
scimago Q1
SJR0.726
CiteScore4.8
Impact factor2.6
ISSN00218936, 15289036
Condensed Matter Physics
Mechanical Engineering
Mechanics of Materials
Abstract

Constitutive equations of elastoplastic materials with anisotropic hardening and elastic-plastic transition are presented by introducing three similar surfaces, i.e., a loading surface on which a current stress exists, a subyield surface limiting a size of the loading surface and a distinct-yield surface representing a fully plastic state. The assumption of similarity of these surfaces leads the derived equations to remarkably simple forms. Also a more general rule of the kinematic hardening for the distinct-yield surface is incorporated into the constitutive equations. While they seem to be applicable to various materials, special constitutive equations of metals, for example, are derived from them and are compared with experimental data on a cyclic uniaxial loading of aluminum. A close correlation between theory and experiment is observed in this comparison.

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