Improvement of Elastomer Elongation and Output for Dielectric Elastomers

S. Chiba, M. Waki, S. Zhu, Tonghuan Qu, K. Ohyama
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引用次数: 3

Abstract

The need for light, high-strength, and artificial muscles is growing rapidly. A well-known type of artificial muscle meeting these requirements is the dielectric elastic (DE) type, which uses electrostatic force between electrodes. In hopes of utilizing, it practically for a variety of purposes, research and development is rapidly progressing all over the world as a technology for practical use. Much of the market demand is dominated by more output-focused applications such as DE power suits, DE motors, DE muscles for robots, and larger DE power systems. To meet these demands, the elasticity of the elastomer is very important. In this paper, we discussed what the important factors are for SS curves, viscoelasticity tests, etc. of the dielectric elastomer materials. Recent attempts have been also made to use new carbon foam materials such as SWCNTs and MWCNTs as electrodes for DEs. These electrodes bring the elastomers to a higher level of performance.
提高介电弹性体的弹性体伸长率和产量
对轻质、高强度和人造肌肉的需求正在迅速增长。满足这些要求的一种众所周知的人造肌肉是介电弹性(DE)型,它在电极之间使用静电力。为了将其实际应用于各种各样的目的,世界各地的研究和开发正在迅速发展,作为一种实用技术。大部分市场需求是由更多以输出为重点的应用主导的,如低能耗套装、低能耗电机、机器人用低能耗肌肉和更大的低能耗电源系统。为了满足这些要求,弹性体的弹性是非常重要的。本文讨论了介电弹性体材料的SS曲线、粘弹性试验等的重要因素。最近也有人尝试使用新的碳泡沫材料,如SWCNTs和MWCNTs作为DEs的电极,这些电极使弹性体的性能达到更高的水平。
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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