Torque Characteristics of Spiral Spring Made of Ti-Ni Superelastic Alloy Wires

Transactions of Japan Society of Spring Engineers Pub Date : 2023-03-31 DOI:10.5346/trbane.2023.1

Hitoo TOKUNAGA, Toshiki FUTAWATARI, So WATANABE

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Abstract

The objective of this study is to develop a new spiral spring that exhibits unique deformation behavior. The properties of the spiral spring make it suitable for use not only as an energy storage element but also as an actuator or similar device. In the present study, a process for manufacturing a spiral spring made of Ti-Ni superelastic alloy wires was proposed. In addition, torque characteristics of the manufactured spiral spring were investigated by torque measurement tests. Rotational torque during wind and rewind processes at a constant rotational speed was monitored. In addition, torque measurement tests were repeated to investigate the effect of the number of wind and rewind processes on the torque characteristics. Two main results were obtained. First, the torque characteristics of the spiral spring show torque plateau behaviors, which are expected to produce a constant energy output. Second, the torque characteristic depends on the number of torque measurement tests. Torque values decrease with increasing number of repeated tests. These results for the spiral spring correspond to the superelastic behavior of the Ti-Ni alloy.

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钛镍超弹性合金丝制螺旋弹簧的转矩特性

本研究的目的是开发一种具有独特变形特性的新型螺旋弹簧。螺旋弹簧的特性使其不仅适合用作储能元件，而且适合用作执行器或类似装置。提出了一种用钛镍超弹性合金丝制作螺旋弹簧的工艺。此外，通过扭矩测量试验对所制螺旋弹簧的扭矩特性进行了研究。在恒定转速下，对绕卷和倒卷过程中的转矩进行了监测。此外，还进行了重复的扭矩测量试验，以研究放卷次数和倒卷过程对扭矩特性的影响。得到了两个主要结果。首先，螺旋弹簧的扭矩特性表现为扭矩平台行为，期望产生恒定的能量输出。第二，扭矩特性取决于扭矩测量试验的次数。扭矩值随着重复试验次数的增加而减小。螺旋弹簧的这些结果与Ti-Ni合金的超弹性行为相对应。

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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Transactions of Japan Society of Spring Engineers

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