We report the results of numerical simulations for the change of both mechanical and electrical properties of elastomers with anisotropically filled polarizable particles under the electric and mechanical fields. Such composites have potentialapplications in electro-mechanical control. We have used numerical techniques to study the effect of particle shape, permittivity/conductivity ratio, and spatial arrangement on the shear modulus as a function of electric field. We also investigated theinfluence of the high field, nonlinear conductivity in the polymer matrix. The results indicate that electrostatic energy and changes therein, which result in electrorheological effects, are concentrated between particles, and that the electrostaticinteraction between the particles is concentrated in very narrow regime at the tips of the particles. The interaction increases with the electric field intensity until the field between the particles is high enough to cause nonlinear electrical conduction in the polymer resulting in a redistribution of the electric field and electrostatic energy.
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