Modelling instabilities in electroelastic and magnetoelastic membranes: a very brief review

TL;DR

This paper reviews current analytical and computational methods for modeling large deformations and instabilities in nonlinear electroelastic and magnetoelastic membranes, highlighting a general framework and various modeling techniques.

Contribution

It provides a comprehensive overview of existing modeling approaches and a unified framework for analyzing instabilities in electroelastic and magnetoelastic membranes.

Findings

Summarizes methods for modeling large deformations.

Details approaches to analyze wrinkling and bifurcations.

Highlights the importance of coupled electromechanical effects.

Abstract

The current state of the art for analytical and computational modelling of deformation in nonlinear electroelastic and magnetoelastic membranes is reviewed. A general framework and a list of methods to model large deformation and associated instabilities (wrinkling, limit point, global bifurcation) due to coupled electromechanical or magnetoemechanical loading is presented.