Experimental investigation on electromechanical deformation of dielectric elastomers under different temperatures

Lei Liu; Hualing Chen; Bo Li; Junjie Sheng; Junshi Zhang; Chi Zhang; Yanjie Wang; Dichen Li

doi:10.1016/j.taml.2015.05.007

Experimental investigation on electromechanical deformation of dielectric elastomers under different temperatures

Lei Liu
, Hualing Chen
, Bo Li
, Junjie Sheng
, Junshi Zhang
, Chi Zhang
, Yanjie Wang
, Dichen Li

School of Mechanical Engineering

Xi'an Jiaotong University

Research output: Contribution to journal › Letter › peer-review

9 Scopus citations

Abstract

Under an applied voltage, dielectric elastomers (DEs) produce an actuation strain that is nonlinear, partly because of the material properties. In this study, an experimental characterization is conducted to evaluate how the ambient temperature and pre-stretch affected the actuation performance. For DEs with a pre-stretch of 2×2, an increase of temperature from -10°to 80°results in a variation in the actuation strain of more than 1700%. Low pre-stretched DEs are more susceptible to temperature change; while highly pre-stretched DEs are relatively insensitive to temperature, because in this case the energy conversion was dominated by mechanical stretching, rather than thermal conduction, during the actuation.

Original language	English
Pages (from-to)	155-159
Number of pages	5
Journal	Theoretical and Applied Mechanics Letters
Volume	5
Issue number	4
DOIs	https://doi.org/10.1016/j.taml.2015.05.007
State	Published - 1 Jul 2015

Keywords

Chains alignment
Dielectric elastomer
Electromechanical deformation
Pre-stretch
Temperature effect

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10.1016/j.taml.2015.05.007

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@article{57fe3dc548ed4c6b9c3338072982b008,

title = "Experimental investigation on electromechanical deformation of dielectric elastomers under different temperatures",

abstract = "Under an applied voltage, dielectric elastomers (DEs) produce an actuation strain that is nonlinear, partly because of the material properties. In this study, an experimental characterization is conducted to evaluate how the ambient temperature and pre-stretch affected the actuation performance. For DEs with a pre-stretch of 2×2, an increase of temperature from -10°to 80°results in a variation in the actuation strain of more than 1700\%. Low pre-stretched DEs are more susceptible to temperature change; while highly pre-stretched DEs are relatively insensitive to temperature, because in this case the energy conversion was dominated by mechanical stretching, rather than thermal conduction, during the actuation.",

keywords = "Chains alignment, Dielectric elastomer, Electromechanical deformation, Pre-stretch, Temperature effect",

author = "Lei Liu and Hualing Chen and Bo Li and Junjie Sheng and Junshi Zhang and Chi Zhang and Yanjie Wang and Dichen Li",

note = "Publisher Copyright: {\textcopyright} 2015 The Authors.",

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doi = "10.1016/j.taml.2015.05.007",

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TY - JOUR

T1 - Experimental investigation on electromechanical deformation of dielectric elastomers under different temperatures

AU - Liu, Lei

AU - Chen, Hualing

AU - Li, Bo

AU - Sheng, Junjie

AU - Zhang, Junshi

AU - Zhang, Chi

AU - Wang, Yanjie

AU - Li, Dichen

PY - 2015/7/1

Y1 - 2015/7/1

N2 - Under an applied voltage, dielectric elastomers (DEs) produce an actuation strain that is nonlinear, partly because of the material properties. In this study, an experimental characterization is conducted to evaluate how the ambient temperature and pre-stretch affected the actuation performance. For DEs with a pre-stretch of 2×2, an increase of temperature from -10°to 80°results in a variation in the actuation strain of more than 1700%. Low pre-stretched DEs are more susceptible to temperature change; while highly pre-stretched DEs are relatively insensitive to temperature, because in this case the energy conversion was dominated by mechanical stretching, rather than thermal conduction, during the actuation.

AB - Under an applied voltage, dielectric elastomers (DEs) produce an actuation strain that is nonlinear, partly because of the material properties. In this study, an experimental characterization is conducted to evaluate how the ambient temperature and pre-stretch affected the actuation performance. For DEs with a pre-stretch of 2×2, an increase of temperature from -10°to 80°results in a variation in the actuation strain of more than 1700%. Low pre-stretched DEs are more susceptible to temperature change; while highly pre-stretched DEs are relatively insensitive to temperature, because in this case the energy conversion was dominated by mechanical stretching, rather than thermal conduction, during the actuation.

KW - Chains alignment

KW - Dielectric elastomer

KW - Electromechanical deformation

KW - Pre-stretch

KW - Temperature effect

UR - https://www.scopus.com/pages/publications/84934887100

U2 - 10.1016/j.taml.2015.05.007

DO - 10.1016/j.taml.2015.05.007

M3 - 快报

AN - SCOPUS:84934887100

SN - 2095-0349

VL - 5

SP - 155

EP - 159

JO - Theoretical and Applied Mechanics Letters

JF - Theoretical and Applied Mechanics Letters

IS - 4

ER -

Experimental investigation on electromechanical deformation of dielectric elastomers under different temperatures

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Keywords

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