聊聊动态塑性和黏塑性

固体力学研究者致力于具有应力-应变本构关系（以下简称为形变型本构关系）的变形体的力学响应研究，而流体力学研究者致力于具有应力-应变率本构关系（以下简称为流动型本构关系）的流动体的力学响应研究。当涉及结构和材料的动态塑性时，到底应该用“塑性变形”还是“塑性流动”来表示？本文从宏观塑性本构理论和微观位错动力学机理两个角度，分别讨论并指出塑性本构关系属于流动型黏塑性率相关本构关系，且同时适用于加载和卸载；因而不应该用应力-应变图来描述塑性加-卸载过程。弹塑性本构关系则是一种形变型和流动型本构关系的耦合。

Talk about dynamic plasticity and viscoplasticity

The researchers in solid mechanics are interested in studying the mechanical response of deformed solids with stress-strain constitutive relationships (referred to as deformation-type constitutive relations), while the researchers in fluid mechanics are interested in studying the mechanical responses of fluids with stress-strain rate constitutive relationships (referred to as flow-type constitutive relations). When the dynamic plasticity of structures and materials is concerned, should it be in terms of plastic deformation or plastic flow? This paper discusses this problem from the macroscopic plastic constitutive theory and the microscopic dislocation dynamic mechanism, respectively, and points out that the plastic constitutive relation belongs to the flow-type viscoplastic rate-dependent constitutive relation, which is suitable for both loading and unloading processes. Therefore, the stress-strain diagram should not be used to describe the plastic loading and unloading processes. The elastic-plastic constitutive relation is the coupling of the deformation-type and flow-type constitutive relations.