A Viscoplasticity Model for Characterizing Loading and Unloading Behavior of Polymeric Composites

Chang-ming Zhu, C. Sun
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引用次数: 10

Abstract

An overstress viscoplasticity model is proposed to describe the rate-dependent behavior of a polymeric composite during loading and unloading. In the model, a three-parameter function is used to describe viscoplastic strain rate. In the loading stage, the equilibrium stress is determined using a multi-step relaxation test performed during loading. During the initial unloading stage, owing to the fact that the viscoplastic strain rate is still positive, the material still experiences "loading," and the corresponding equilibrium stress is the equilibrium stress-strain curve for loading. In the second unloading stage, the viscoplastic strain rate becomes negative, and the material is in a true unloading mode for which the equilibrium stress is determined again using the multi-step "relaxation" test. The viscoplasticity model is found to be capable of capturing the characteristics of the rate-dependent loading and unloading behavior.
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表征聚合物复合材料加载和卸载行为的粘塑性模型
提出了一个超应力粘塑性模型来描述聚合物复合材料在加载和卸载过程中的速率依赖行为。模型中采用三参数函数来描述粘塑性应变率。在加载阶段,通过加载过程中进行的多步松弛试验来确定平衡应力。卸载初期,由于粘塑性应变率仍为正,材料仍处于“加载”状态,对应的平衡应力为加载平衡应力-应变曲线。在第二卸载阶段,粘塑性应变率变为负值,材料进入真正的卸载模式,通过多步“松弛”试验再次确定平衡应力。发现粘塑性模型能够捕捉速率相关加载和卸载行为的特征。
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