Multiscale analysis of the electromechanical coupling in dielectric elastomers

The coupled electromechanical response of dielectrics is analyzed in terms of the local response and the distribution of its microstructural unit elements. A comparison between two variational statements for a continuous and a discrete systems results in an estimate for the macroscopic coupled elect...

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Veröffentlicht in:	European journal of mechanics, A, Solids A, Solids, 2014-11, Vol.48, p.48-59
Hauptverfasser:	Cohen, Noy, deBotton, Gal
Format:	Artikel
Sprache:	eng
Schlagworte:	Dielectric elastomers Dielectrics Discrete systems Estimates Joining Macroscopic models Mathematical models Microstructure Multi-scale analysis Networks Variational principles
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container_title	European journal of mechanics, A, Solids
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description	The coupled electromechanical response of dielectrics is analyzed in terms of the local response and the distribution of its microstructural unit elements. A comparison between two variational statements for a continuous and a discrete systems results in an estimate for the macroscopic coupled electromechanical energy-density function. Next, a few types of unit elements are considered and the corresponding behaviors of dielectrics with a random distribution of these elements are calculated. Additionally, to highlight the possible effect of local constraints among the unit elements, a deterministic model for a network of polymer chains is proposed and its response to electric excitation is determined. The practically common case of a uniaxial stretch aligned with the electric field is examined in detail and the results are compared with widely accepted macroscopic models and available experimental results. •EAP responses are analyzed based on their micro-elements responses and distribution.•Variational statements for continuous and discrete systems are compared.•The behaviors of dielectrics with a few types of micro-elements are considered.•A simplified deterministic model of a polymer network is examined.•Results for a uniaxial stretch aligned with the electric field are determined.
doi_str_mv	10.1016/j.euromechsol.2014.02.022
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subjects	Dielectric elastomers Dielectrics Discrete systems Estimates Joining Macroscopic models Mathematical models Microstructure Multi-scale analysis Networks Variational principles
title	Multiscale analysis of the electromechanical coupling in dielectric elastomers
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