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摘要: 形状记忆合金(SMA)是一类应用前景广阔的智能材料系统, 其最基本的宏观响应特性是在不同温度和应力条件下的相变超弹性和形状记忆特性.近年来, 形状记忆合金本构模型发展迅速, 其在工程结构振动控制领域中的研究和应用也得到了广泛地关注.与此同时, 许多学者将SMA用于当前迅速发展的智能材料结构,发展了一系列SMA复合材料本构模型, 成为目前SMA的应用研究的热点.本文针对形状记忆合金本构模型的发展状况, 首先回顾了近年来常用的和新发展的SMA本构模型, 并根据其包含的力学特点和基本理论将其进行了比较归类, 分析了各类模型特点和适用范围;其次从微/宏观角度介绍了有广阔应用前景的SMA智能复合材料的本构模型的发展状况;接着简要的综述了几类较为实用的SMA本构模型在实现结构的主/被控制、变形控制及结构裂纹诊断与控制等方面的应用现状.最后对目前本构模型的发展趋势、工程应用问题提出了一些看法和展望.
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关键词:
- 形状记忆合金, 本构模型, 振动控制
Abstract: Shape Memory Alloy (SMA) is a sort of intelligent material systemwidely used in many engineering application fields. The basicmacroscopic response characteristcs are the pseudoelasticity and theshape memory effect at various temperatures and stress levels. Shape memoryalloy constitutive models have developed rapidly and received increasingattention in recent years because of their great potential for the vibrationcontrol of engineering structures. Meanwhile, a series of SMA compositecontitutive models compatible with the developing composite material becomehot topics nowadays and are investigated by many reasearchers.This paper reviews those common SMA constitutive models and newlydeveloped models and classifies them in terms of the mechanical behavior andtheoretical basis. And the characteristics and applicability of the modelsare also compared and analyzed. The developing status of SMA composite constitutive models areintroduced from the point of microcosmic and macroscopical view. Thispaper also presentsan overview to the state of the art of some practical SMAconstitutive models in the fields of active and passive vibration controls,deformation controls and crack diagnoses and control techniques. Finally, thepromising future and engineering applications of SMA constitutive models arediscussed.
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