Temperature-frequency dependence of electrostrictive properties of a polyurethane elastomer

ISAF '96. Proceedings of the Tenth IEEE International Symposium on Applications of Ferroelectrics Pub Date : 1996-08-18 DOI:10.1109/ISAF.1996.598178

J. Su, C. Kim, V. Kugel, Q.M. Zhang, R. Ting, R. Capps

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引用次数: 3

Abstract

It was discovered recently that a large electric-field-induced strain can be obtained in several polyurethane elastomers which show promises for the applications in the transducers and actuators. In this study, electrostrictive properties of a polyurethane elastomer were investigated systematically. The elastic, dielectric and DSC spectroscopy analysis indicated the existence of two transition processes in the polyurethane from -50/spl deg/C to 80/spl deg/C. The field-induced strain coefficients exhibited large increases at the transition regions, indicating that the transition processes have a significant effect on the field-induced strain response. From the elastic and dielectric constant data, the contribution of uniform Maxwell stress was calculated, It was found that the contribution of the Maxwell stress effect to the measured strain coefficient increased from about 10% below the glass transition temperature, T/sub g/, (/spl sim/-25/spl deg/C) to about 50% and 35% for the frequencies of 10 Hz and 100 Hz, respectively, at /spl sim/40/spl deg/C, which is above T/sub g/. The difference between the measured strain response and the calculated Maxwell stress effect indicates a significant contribution from other mechanisms such as electrostriction.

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聚氨酯弹性体电伸缩性能的温度-频率依赖性

近年来，研究人员发现，几种聚氨酯弹性体可以获得较大的电场感应应变，这在传感器和执行器中有很大的应用前景。本文系统地研究了一种聚氨酯弹性体的电致伸缩性能。弹性、介电和DSC谱分析表明，聚氨酯在-50/spl℃到80/spl℃之间存在两个过渡过程。场致应变系数在过渡区有较大的增加，表明过渡过程对场致应变响应有显著的影响。根据弹性和介电常数数据，计算了均匀麦克斯韦应力对测量应变系数的贡献，发现麦克斯韦应力对测量应变系数的贡献从玻璃化温度T/sub g/， (/spl sim/-25/spl℃)下的约10%增加到/spl sim/40/spl℃下10 Hz和100 Hz频率下的约50%和35%，高于T/sub g/。实测应变响应与计算麦克斯韦应力效应之间的差异表明，其他机制(如电致伸缩)也有显著贡献。

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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ISAF '96. Proceedings of the Tenth IEEE International Symposium on Applications of Ferroelectrics

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