Analysis of Bias-Type Actuator Using Shape Memory Alloy Based on Its Thermomechanical Constitutive Description

JSME international journal. Series A, mechanics and material engineering Pub Date : 1996-10-15 DOI:10.1299/JSMEA1993.39.4_526

S. Biwa, Kenichi Yamada, E. Matsumoto, T. Shibata

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引用次数: 2

Abstract

Dynamic behaviour of a bias type actuator using Ti-Ni shape memory alloy is examined theoretically as well as experimentally. The constitutive and the heat equations for the shape memory alloy, derived in the framework of continuum thermomechanics with phase transformation taken into account, are employed to describe the response of the considered actuator to applied electric input varying in time. Material parameters in the constitutive model adopted are determined from uniaxial loading unloading tests at different temperatures. An experimental setup of the actuator, consisting of a shape memory alloy wire and a bias spring connected serially, is also manufactured, and the response of the actuator to cyclic electric input is measured. The experimental results obtained are compared with the predictions of the analytical model, which proves promising to describe the behaviour of the actuator very well in terms of its dependence on various factors such as the rigidity of the bias spring, as well as the magnitude and the period of cyclic input.

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基于热力学本构描述的形状记忆合金偏置驱动器分析

本文从理论和实验两方面研究了钛镍形状记忆合金偏压型作动器的动态特性。在考虑相变的连续热力学框架下，导出了形状记忆合金的本构方程和热方程，用于描述所考虑的致动器对随时间变化的外加电输入的响应。采用的本构模型中的材料参数由不同温度下的单轴加载卸载试验确定。制作了由形状记忆合金导线和偏置弹簧串联组成的致动器实验装置，并测量了致动器对循环电输入的响应。将得到的实验结果与解析模型的预测结果进行了比较，结果表明解析模型能够很好地描述执行器的行为，因为它依赖于各种因素，如偏置弹簧的刚度，以及循环输入的大小和周期。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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JSME international journal. Series A, mechanics and material engineering

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