A Numerical Model of Heating and Cooling Cycles to Study the Driven Response for Twisted and Coiled Polymer Actuator

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Zhiwen Gao, Yuhao Zhang, Juanjuan Guo, Hua Li, Bin Chen, Jizeng Wang
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引用次数: 0

Abstract

Twisted and coiled polymer actuator (TCPA) is a type of artificial muscle that can be driven by heating due to its structure. A key issue with TCPA performance is the low driven frequency due to slow heat transfer in heating and cooling cycles, especially during cooling. We developed a numerical model of coating heating and nitrogen gas cooling that can effectively improve the driven forces and frequencies of the TCPA. Results indicate that natural cooling and electric fan cooling modes used in many experiments cannot restore the TCPA to its initial configuration when driven frequencies are high. Nitrogen gas cooling, at high driven frequencies, can fully restore the TCPA to its initial configuration, which is crucial for maintaining artificial muscle flexibility. In addition, as driven frequency increases, the corresponding driven force decreases. Systematic parametric studies were carried out to provide inspirations for optimizing TCPA design. The integrative computational study presented here provides a fundamental mechanistic understanding of the driven response in TCPA and sheds light on the rational design of TCPA through changing cooling modes.

Abstract Image

研究扭曲和盘绕聚合物致动器驱动响应的加热和冷却循环数值模型
扭曲盘绕聚合物致动器(TCPA)是一种人工肌肉,由于其结构的原因,可以通过加热来驱动。TCPA 性能的一个关键问题是在加热和冷却循环中,特别是在冷却过程中,由于热传导速度慢,驱动频率低。我们开发了涂层加热和氮气冷却的数值模型,可有效提高 TCPA 的驱动力和频率。结果表明,当驱动频率较高时,许多实验中使用的自然冷却和电风扇冷却模式无法将 TCPA 恢复到初始构型。在高驱动频率下,氮气冷却可将 TCPA 完全恢复到初始构型,这对保持人工肌肉的灵活性至关重要。此外,随着驱动频率的增加,相应的驱动力也会降低。系统的参数研究为优化 TCPA 设计提供了灵感。本文介绍的综合计算研究提供了对 TCPA 驱动响应的基本机理理解,并为通过改变冷却模式合理设计 TCPA 提供了启示。
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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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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