形状记忆合金的一种基于热力学定律的本构模型

A new constitutive model of shape memory alloy based on thermodynamics

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摘要在Tanaka本构理论、Liang-Rogers本构理论以及Brinson本构理论的基础上,应用热力学定律,结合差示扫描量热仪(DSC)的实验数据,经理论推导给出了一种描述形状记忆合金相变过程中应力、应变、温度以及马氏体体积分数相互耦合的唯像本构模型,并在形状记忆合金的几种典型的物理状态下和经典的理论模型进行了对比性研究.结果表明,所提出的基于热力学定律的本构模型和经典的Liang-Rogers理论保持了较好的一致性. Based on Tanaka theory, Liang-Rogers theory and Brinson theory of shape memory alloys, a new constitutive model was presented. This model was established according to thermodynamic rules and deduced from the DSC experiment data, relations of stress, strain, temperature and Martensitic volume fraction, characterized in a new way. The model was compared with Tanaka and Liang-Rogers constitutive models in the form of figures. The results indicate that the new constitutive model keeps in line with Liang-Rogers theory.

作者邓世春李永池胡秀章

机构地区中国科学技术大学近代力学系

出处《中国科学技术大学学报》 CAS CSCD 北大核心 2009年第12期1323-1328,共6页 JUSTC

基金国家自然科学基金重点项目(10632080)资助

关键词形状记忆合金唯像本构模型 DSC 马氏体体积分数应力应变 shape memory alloy constitutive model DSC martensitic volume fraction stress strain

分类号 O347 [理学—固体力学]

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中国科学技术大学学报

2009年第12期

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形状记忆合金的一种基于热力学定律的本构模型

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