A computational framework for a class of fully coupled models for elastoplastic damage at finite strains with reference to the linearization aspects Original Research Article

A fully coupled model for finite strain elastoplastic damage, based on the multiplicative decomposition of the deformation gradient, which incorporates non-linear isotropic and kinematic hardening is described. The numerical integration of its constitutive equations is performed by an algorithm which generalizes the standard return mapping procedures of the infinitesimal theory. The exact, consistent linearization of the model described is carried out in detail. It provides the basis of the full Newton-Raphson procedure for iterative solution of the associated equilibrium problem. By means of finite element simulations, the performance of the exact tangent modulus derived is compared with an approximate version and some practical implications are discussed.