Snap-through path in a bistable dielectric elastomer actuator

Wenjie Sun; Wentao Ma; Fei Zhang; Wei Hong; Bo Li

doi:10.1007/s10483-022-2888-6

Snap-through path in a bistable dielectric elastomer actuator

Wenjie Sun
, Wentao Ma
, Fei Zhang
, Wei Hong
, Bo Li

机械工程学院

Xi'an University of Technology
Xi'an Jiaotong University
Southern University of Science and Technology

科研成果: 期刊稿件 › 文章 › 同行评审

10 引用（Scopus）

摘要

The dielectric elastomer (DE) has attracted significant attention due to its desired features, including large deformation, fast response, and high energy density. However, for a DE actuator (DEA) utilizing a snap-through deformation mode, most existing theoretical models fail to predict its deformation path. This paper develops a new finite element method (FEM) based on the three-parameter Gent-Gent model suitable for capturing strain-stiffening behaviors. The simulation results are verified by experiments, indicating that the FEM can accurately characterize the snap-through path of a DE. The method proposed in this paper provides theoretical guidance and inspiration for designing and applying DEs and bistable electroactive actuators.

源语言	英语
页（从-至）	1159-1170
页数	12
期刊	Applied Mathematics and Mechanics (English Edition)
卷	43
期	8
DOI	https://doi.org/10.1007/s10483-022-2888-6
出版状态	已出版 - 8月 2022

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title = "Snap-through path in a bistable dielectric elastomer actuator",

abstract = "The dielectric elastomer (DE) has attracted significant attention due to its desired features, including large deformation, fast response, and high energy density. However, for a DE actuator (DEA) utilizing a snap-through deformation mode, most existing theoretical models fail to predict its deformation path. This paper develops a new finite element method (FEM) based on the three-parameter Gent-Gent model suitable for capturing strain-stiffening behaviors. The simulation results are verified by experiments, indicating that the FEM can accurately characterize the snap-through path of a DE. The method proposed in this paper provides theoretical guidance and inspiration for designing and applying DEs and bistable electroactive actuators.",

keywords = "bistable, dielectric elastomer actuator (DEA), finite element method (FEM), O322, O326, snap-through, strain-stiffening behavior",

author = "Wenjie Sun and Wentao Ma and Fei Zhang and Wei Hong and Bo Li",

note = "Publisher Copyright: {\textcopyright} 2022, Shanghai University.",

year = "2022",

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doi = "10.1007/s10483-022-2888-6",

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T1 - Snap-through path in a bistable dielectric elastomer actuator

AU - Sun, Wenjie

AU - Ma, Wentao

AU - Zhang, Fei

AU - Hong, Wei

AU - Li, Bo

PY - 2022/8

Y1 - 2022/8

N2 - The dielectric elastomer (DE) has attracted significant attention due to its desired features, including large deformation, fast response, and high energy density. However, for a DE actuator (DEA) utilizing a snap-through deformation mode, most existing theoretical models fail to predict its deformation path. This paper develops a new finite element method (FEM) based on the three-parameter Gent-Gent model suitable for capturing strain-stiffening behaviors. The simulation results are verified by experiments, indicating that the FEM can accurately characterize the snap-through path of a DE. The method proposed in this paper provides theoretical guidance and inspiration for designing and applying DEs and bistable electroactive actuators.

AB - The dielectric elastomer (DE) has attracted significant attention due to its desired features, including large deformation, fast response, and high energy density. However, for a DE actuator (DEA) utilizing a snap-through deformation mode, most existing theoretical models fail to predict its deformation path. This paper develops a new finite element method (FEM) based on the three-parameter Gent-Gent model suitable for capturing strain-stiffening behaviors. The simulation results are verified by experiments, indicating that the FEM can accurately characterize the snap-through path of a DE. The method proposed in this paper provides theoretical guidance and inspiration for designing and applying DEs and bistable electroactive actuators.

KW - bistable

KW - dielectric elastomer actuator (DEA)

KW - finite element method (FEM)

KW - O322

KW - O326

KW - snap-through

KW - strain-stiffening behavior

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DO - 10.1007/s10483-022-2888-6

M3 - 文章

AN - SCOPUS:85135168267

SN - 0253-4827

VL - 43

SP - 1159

EP - 1170

JO - Applied Mathematics and Mechanics (English Edition)

JF - Applied Mathematics and Mechanics (English Edition)

IS - 8

ER -

Snap-through path in a bistable dielectric elastomer actuator

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