Composite dielectric elastomers modeling based on statistical mechanics

Composite dielectric elastomers modeling based on statistical mechanics

•Particles distributed in dielectric elastomer forming particle-chain structures.•Averaging particle-chain direction using the Mises-Fisher function.•Material model relied on microstructural-phenomenological approach.•No inverse Langevin function appears in material model. We propose in this work a...

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Bibliographic Details
Published in:Mechanics research communications Vol. 110; p. 103623
Main Author: Waluyo, Sugeng
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-12-2020
Subjects:
Composite
Dielectric constant model
Dielectric elastomer
Microstructural-phenomenological
Particle-chain
Dielectric elastomer
Particle-chain
Composite
Dielectric constant model
Microstructural-phenomenological
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Summary:•Particles distributed in dielectric elastomer forming particle-chain structures.•Averaging particle-chain direction using the Mises-Fisher function.•Material model relied on microstructural-phenomenological approach.•No inverse Langevin function appears in material model. We propose in this work a hybrid microstructural-phenomenological modeling of composite dielectric elastomer based on statistical mechanics. The composite dielectric elastomer is made from high permittivity filler particles doped to elastomeric based material. We assume that the particles are uniformly distributed in the based material and form particle-chain structures. With the help of statistical mechanics, the electroelastic strain energy is formulated from the particle-chain reorientation induced by applied electric field. Moreover, the phenomenological dielectric constant model is used to eliminate the inverse Langevin function in the strain energy formulation. Our proposed constitutive model is validated with respect to two electroelastic experiments which use two composite dielectric elastomers with different material properties. From the validation, our proposed model works well to capture large stretch electroelastic deformations not only for different material properties but also for different particle fraction in the composite dielectric elastomer.
ISSN:0093-6413
1873-3972
DOI:10.1016/j.mechrescom.2020.103623