This paper introduces a new computational framework for the analysis of large strain fast
solid dynamics. The paper builds upon previous work published by the authors (Gil et al …

A mixed second order stabilised Petrov–Galerkin finite element framework was recently
introduced by the authors (Lee et al., 2014)[46]. The new mixed formulation, written as a …

A vertex centred Jameson–Schmidt–Turkel (JST) finite volume algorithm was recently
introduced by the authors (Aguirre et al., 2014 [1]) in the context of fast solid isothermal …

Abstract In Parts I (Bonet et al., 2015) and II (Gil et al., 2016) of this series, a novel
computational framework was presented for the numerical analysis of large strain fast solid …

In Part I of this series, Bonet et al.(2015) introduced a new computational framework for the
analysis of large strain isothermal fast solid dynamics, where a mixed set of Total …

A family of numerical models for the phenomenological linear flexoelectric theory for
continua and their particularisation to the case of three-dimensional beams based on a skew …

This paper builds on recent work developed by the authors for the numerical analysis of
large strain solid dynamics, by introducing an upwind cell centred hexahedral finite volume …

This paper presents a high order finite element implementation of the convex multi-variable
electro-elasticity for large deformations large electric fields analyses and its particularisation …

This paper presents an explicit vertex centred finite volume method for the solution of fast
transient isothermal large strain solid dynamics via a system of first order hyperbolic …

We propose a new computational framework for the treatment of acousto‐magneto‐
mechanical coupling that arises in low‐frequency electro‐magneto‐mechanical systems …