Constitutive relationship of ionic polymer-metal composite and static response character of its cantilever setup to voltage 被引量：1

Constitutive relationship of ionic polymer-metal composite and static response character of its cantilever setup to voltage

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摘要 As a new ionic polymer-metal composite(IPMC) for artificial muscle,the mechanical performance parameters and the relationship between the deformation and the electrical parameters of the IPMC were studied. With the digital speckle correlation method,the constitutive relationship of the IPMC was confirmed. With non-contact photography measurement,a cantilever setup was designed to confirm the relationship between the deformation of the IPMC film and the applied voltage. The relationship curve of tip displacement of the IPMC cantilever setup vs the voltage was achieved. The results indicate that the IPMC is isotropic,its elastic modulus is 232 MPa and Poisson ratio is 0.163. The curve achieved from the test of the tip displacement of the IPMC cantilever setup shows that the tip displacement reaches the maximum when the stimulated voltage is 5 V. And the tip displacement descends largely when the frequency of the applied voltage is between 30 mHz and 100 mHz. As a new ionic polymer-metal composite（IPMC） for artificial muscle,the mechanical performance parameters and the relationship between the deformation and the electrical parameters of the IPMC were studied. With the digital speckle correlation method,the constitutive relationship of the IPMC was confirmed. With non-contact photography measurement,a cantilever setup was designed to confirm the relationship between the deformation of the IPMC film and the applied voltage. The relationship curve of tip displacement of the IPMC cantilever setup vs the voltage was achieved. The results indicate that the IPMC is isotropic,its elastic modulus is 232 MPa and Poisson ratio is 0.163. The curve achieved from the test of the tip displacement of the IPMC cantilever setup shows that the tip displacement reaches the maximum when the stimulated voltage is 5 V. And the tip displacement descends largely when the frequency of the applied voltage is between 30 mHz and 100 mHz.

作者唐华平聂拓唐运军殷陈峰唐春喜王桥医

机构地区 School of Mechanical and Electrical Engineering School of Mechanical Engineering

出处《Journal of Central South University of Technology》 EI 2008年第3期387-391,共5页 中南工业大学学报（英文版）

基金 Project(50575228) supported by the National Natural Science Foundation of China Project(07JJ3089) supported by the Hunan Provincial Natural Science Foundation of China

关键词 constitutive relationship ionic polymer-metal composite（IPMC） cantilever setup static response 离子聚合物-金属复合物悬臂机构静态响应人造肌肉

分类号 TB332 [一般工业技术—材料科学与工程]

作者简介 Corresponding author： TANG Hua-ping, Professor, PhD; Tel：＋86-731-8879351; E-maih Huapingt@mail.csu.edu.cn

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Journal of Central South University of Technology

2008年第3期

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