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构件裂纹的探测和主动控制的一种新方法
引用本文:杜彦良,聂景旭,赵长占.构件裂纹的探测和主动控制的一种新方法[J].航空学报,1993,14(7):337-341.
作者姓名:杜彦良  聂景旭  赵长占
作者单位:北京航空航天大学动力系,北京 100083
基金项目:国家自然科学基金,航空科学基金
摘    要:提出将具有特殊力学性能和物理性能的形状记忆合金——NiTi丝埋入构件内部,利用构件内NiTi丝的电阻率大、对应变敏感和加热后可以产生巨大回复力等特点,可以实现对构件中的裂纹进行探测和主动控制裂纹的扩展。通过光弹试验和数值分析证明效果显著。

关 键 词:裂纹探测  主动控制裂纹扩展  形状记忆合金  应力强度因子  回复力  
收稿时间:1992-02-25
修稿时间:1992-05-12

A NEW METHOD FOR CRACK-DETECTING AND ACTIVE CONTROL
Du Yan-liang,Nie Jing-xu,Zhao Chang-zhan.A NEW METHOD FOR CRACK-DETECTING AND ACTIVE CONTROL[J].Acta Aeronautica et Astronautica Sinica,1993,14(7):337-341.
Authors:Du Yan-liang  Nie Jing-xu  Zhao Chang-zhan
Institution:Department of Jet Propulsion, Beijing University of Aeronautics and Astronautics, Beijing, 100083
Abstract:In this paper, a new method that is utilizing the unique mechanical properties and physical function of Shape Memory Alloy (SMA) which is embedded in the component to detect crack and actively control the crack growth is presented. The Shape Memory Alloys, and NiTi wire in particular, have many unique characteristics and behavior. For example, they have larger electric resistivity and higher sensitivity to strains, and will produce a large recovery force when heated, etc. The SMA-NiTi wires are embedded in the epoxy plate and tensile specimens are made. Both photoelastic experiment and numerical analysis are investigated. The experiment and calculation results show that this method can be used to the crack-detecting and actively control the crack growth, and the effect is obvious.
Keywords:crack-detecting  active control the crack growth  shape memory alloy  stress intensity factor  recovery force  
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