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Electroelasticity of copolymer networks

Idan Zvi Friedberg, Gal Debotton

We introduce a novel statistical mechanics-based analysis of electroactive copolymer networks. This enables to express the coupled response of a multi-species polymer network in terms of a Gibbs-like energy-density function. Following the common affine deformation assumption we derive the expressions for the network response in terms of the species’ properties and molar fraction. Next, we specialize the results to the class of monomers with spontaneous electric dipoles and determine the monomers’ orientational distribution in terms of a generalized Langevin function. We reveal that the coupled response of the copolymer depends on the contrast between the intensities of the dipolar moments of the species and their fraction of the chain end-to-end length. In the long chains limit we obtain closed-form expressions for the electrical and mechanical fields. Next, we consider two-species copolymers and find that the long chains approximation is valid for actuation stretch ratios up to 40% of the locking stretch. We also demonstrate that the maximal susceptibility is attained when the contour lengths of the two species are equal. Moreover, the overall electroelastic response is enhanced if the monomers with the weaker dipole are longer than those with the stronger one. Finally, we show that an appropriate choice of actual monomers may lead to copolymers with relative dielectric constants of more than 30.

שפת פרסום אנגלית
כרך 175
סטטוס פרסום פורסם - 01.06.2023

Keywords

Copolymers
Dielectric elastomers
Electroactive polymers
Polymer chain
Statistical Mechanics

ASJC Scopus subject areas

Condensed Matter Physics
Mechanics of Materials
Mechanical Engineering
גישה למסמך
10.1016/j.jmps.2023.105295
קבצים וקישורים אחרים
Link to publication in Scopus