Dynamic Modeling and Response Analysis of Dielectric Elastomer Incorporating Fractional Viscoelasticity and Gent Function

Dielectric Elastomer (DE) has been recognized for its remarkable potential in actuation and sensing applications. However, the functionality of most DE materials is restricted by their high viscoelastic effects. Currently, there is a lack of dynamic models that consider both viscoelasticity and stif...

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Published inFractal and fractional Vol. 7; no. 11; p. 786
Main Authors Li, Qiaoyan, Sun, Zhongkui
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.11.2023
Subjects
Actuation
Coupling
Design optimization
dielectric elastomer
Dynamic models
Elastomers
Fractional calculus
fractional viscoelasticity
Investigations
Magnetic properties
nonlinear dynamics
Parameters
Stiffening
stiffening effects
Viscoelasticity
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Abstract Dielectric Elastomer (DE) has been recognized for its remarkable potential in actuation and sensing applications. However, the functionality of most DE materials is restricted by their high viscoelastic effects. Currently, there is a lack of dynamic models that consider both viscoelasticity and stiffening effects. To address this research gap, we propose a fractional-order model in this study. Specifically, the model comprehensively integrates both viscoelastic and stiffening effects under electromechanical coupling, utilizing the principle of virtual work. Further, the effects of the system parameters are analyzed. The results indicate that the fractional-order derivative influences the hysteresis behaviors during the transient state and affects the duration of the transient process. Furthermore, when the system’s energy surpasses a certain threshold, the steady-state response can transition between two distinct potential wells. Through the manipulation of electromechanical coupling parameters, bifurcation can be induced, and the occurrence of snap-through and snap-back behaviors can be controlled. These findings have significant implications for the design and optimization of DE materials in various applications.
AbstractList Dielectric Elastomer (DE) has been recognized for its remarkable potential in actuation and sensing applications. However, the functionality of most DE materials is restricted by their high viscoelastic effects. Currently, there is a lack of dynamic models that consider both viscoelasticity and stiffening effects. To address this research gap, we propose a fractional-order model in this study. Specifically, the model comprehensively integrates both viscoelastic and stiffening effects under electromechanical coupling, utilizing the principle of virtual work. Further, the effects of the system parameters are analyzed. The results indicate that the fractional-order derivative influences the hysteresis behaviors during the transient state and affects the duration of the transient process. Furthermore, when the system’s energy surpasses a certain threshold, the steady-state response can transition between two distinct potential wells. Through the manipulation of electromechanical coupling parameters, bifurcation can be induced, and the occurrence of snap-through and snap-back behaviors can be controlled. These findings have significant implications for the design and optimization of DE materials in various applications.
Audience Academic
Author Sun, Zhongkui
Li, Qiaoyan
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CitedBy_id crossref_primary_10_1007_s11071_024_10280_z
crossref_primary_10_1016_j_cnsns_2024_108083
crossref_primary_10_3390_fractalfract8120742
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Snippet Dielectric Elastomer (DE) has been recognized for its remarkable potential in actuation and sensing applications. However, the functionality of most DE...
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StartPage 786
SubjectTerms Actuation
Coupling
Design optimization
dielectric elastomer
Dynamic models
Elastomers
Fractional calculus
fractional viscoelasticity
Investigations
Magnetic properties
nonlinear dynamics
Parameters
Stiffening
stiffening effects
Viscoelasticity
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Title Dynamic Modeling and Response Analysis of Dielectric Elastomer Incorporating Fractional Viscoelasticity and Gent Function
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https://doaj.org/article/53883462a0c2463aa6c6dc21597565ab
Volume 7
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