首页> 外文期刊>Journal of intelligent material systems and structures >Design, analysis, and manufacture of a tension-compression self-centering damper based on energy dissipation of pre-stretched superelastic shape memory alloy wires
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Design, analysis, and manufacture of a tension-compression self-centering damper based on energy dissipation of pre-stretched superelastic shape memory alloy wires

机译:基于预拉伸超弹性形状记忆合金丝能量耗散的拉压自定心阻尼器的设计,分析与制造

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摘要

Superelastic shape memory alloys dissipate significant amount of energy since they recover large transformation strains upon mechanical unloading. Due to their dissipation properties, shape memory alloys can be effectively employed as dampers. Design, simulation, and fabrication of a newly developed superelastic shape memory alloy damper are discussed in this article. To enhance the stroke and dissipation capacity of the proposed damper, a system is implemented which operates more efficiently than a single shape memory alloy wire. Although shape memory alloy wires can only undergo tension, the new system enables the damper to be loaded in both tension and compression. Two damping groups are employed in this mechanism: one of which is activated during tension and the other is activated during compression of the damper. Each damping group consists of two shape memory alloy wires acting in the opposite directions to increase the damping capacity of the system. The mechanical responses of the individual components as well as the assembled damper are simulated. The predicted performance of the damper is then validated through tension/compression tests on the fabricated sample. Numerical and experimental force-displacement curves are also shown to be in a good agreement. The effect of different parameters on damping ratio and dissipated energy of the presented damper is investigated.
机译:超弹性形状记忆合金会耗散大量能量,因为它们会在机械卸载时恢复较大的变形应变。由于其耗散特性,形状记忆合金可以有效地用作阻尼器。本文讨论了新开发的超弹性形状记忆合金阻尼器的设计,仿真和制造。为了增强所提出的阻尼器的行程和耗散能力,实现了一种系统,该系统比单个形状记忆合金线更有效地运行。尽管形状记忆合金线只能承受拉力,但是新系统使阻尼器既可以承受拉力也可以承受压缩力。在该机构中使用了两个阻尼组:其中一个在拉力作用下被激活,另一个在阻尼器压缩时被激活。每个阻尼组由两条形状记忆合金丝组成,它们沿相反的方向作用,以增加系统的阻尼能力。模拟了各个组件以及组装好的阻尼器的机械响应。然后,通过对制成的样品进行拉伸/压缩测试来验证阻尼器的预测性能。数值和实验力-位移曲线也显示出很好的一致性。研究了不同参数对所提出的阻尼器的阻尼比和耗散能量的影响。

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