Modeling of dielectric elastomer as electromechanical resonator

Bo Li; Junshi Zhang; Lei Liu; Hualing Chen; Shuhai Jia; Dichen Li

doi:10.1063/1.4896584

Modeling of dielectric elastomer as electromechanical resonator

Bo Li
, Junshi Zhang
, Lei Liu
, Hualing Chen
, Shuhai Jia
, Dichen Li

School of Mechanical Engineering

Xi'an Jiaotong University

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

45 Scopus citations

Abstract

Dielectric elastomers (DEs) feature nonlinear dynamics resulting from an electromechanical coupling. Under alternating voltage, the DE resonates with tunable performances. We present an analysis of the nonlinear dynamics of a DE as electromechanical resonator (DEER) configured as a pure shear actuator. A theoretical model is developed to characterize the complex performance under different boundary conditions. Physical mechanisms are presented and discussed. Chaotic behavior is also predicted, illustrating instabilities in the dynamics. The results provide a guide to the design and application of DEER in haptic devices.

Original language	English
Article number	124509
Journal	Journal of Applied Physics
Volume	116
Issue number	12
DOIs	https://doi.org/10.1063/1.4896584
State	Published - 28 Sep 2014

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abstract = "Dielectric elastomers (DEs) feature nonlinear dynamics resulting from an electromechanical coupling. Under alternating voltage, the DE resonates with tunable performances. We present an analysis of the nonlinear dynamics of a DE as electromechanical resonator (DEER) configured as a pure shear actuator. A theoretical model is developed to characterize the complex performance under different boundary conditions. Physical mechanisms are presented and discussed. Chaotic behavior is also predicted, illustrating instabilities in the dynamics. The results provide a guide to the design and application of DEER in haptic devices.",

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AU - Li, Bo

AU - Zhang, Junshi

AU - Liu, Lei

AU - Chen, Hualing

AU - Jia, Shuhai

AU - Li, Dichen

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AB - Dielectric elastomers (DEs) feature nonlinear dynamics resulting from an electromechanical coupling. Under alternating voltage, the DE resonates with tunable performances. We present an analysis of the nonlinear dynamics of a DE as electromechanical resonator (DEER) configured as a pure shear actuator. A theoretical model is developed to characterize the complex performance under different boundary conditions. Physical mechanisms are presented and discussed. Chaotic behavior is also predicted, illustrating instabilities in the dynamics. The results provide a guide to the design and application of DEER in haptic devices.

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Modeling of dielectric elastomer as electromechanical resonator

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