This paper summarises the general strategy for time evolving finite elastoplasticity and outlines encountered computational challenges in form of numerical benchmarks. Each time-step of some natural implicit time-discretisation is eventually recast into a possibly non-convex minimisation problem. Finite plasticity seems to imply the lack of lower semicontinuity of the energy functional and so leads to enforced fine strain oscillations called microstructures with required generalised solution concepts. The adaptive spacial discretisation is possible for convexified formulations from the relaxation finite element method (RFEM). For single-slip finite plasticity, one requires to relax numerically with laminates or semiconvexity notions
The finite element simulation of plastic strain localization phenomena generally exhibits a strong d...
AbstractThis paper is devoted to the study of gradient plasticity at small strains. Some time-indepe...
We provide a global existence result for the time-continuous elastoplasticity problem using the ener...
This paper summarises the general strategy for time evolving finite elastoplasticity and outlines en...
An important class of finite-strain elastoplasticity is based on the multiplicative decomposition o...
An important class of finite-strain elastoplasticity is based on the multiplicative decomposition of...
Gradient plasticity at large strains with kinematic hardening is analyzed as quasistatic rate-indepe...
Modern mathematical approaches to plasticity lead to non-convex minimization problems for which the ...
The boundary value problem representing one time step of the primal formulation of elastoplasticity ...
We propose an approach to the definition and analysis of material instabilities in rate-independent ...
This paper presents computationally feasible rank-one relaxation algorithms for the efficient simula...
Relaxation is a promosing technique to overcome mesh-dependency in computational damage mechanics or...
We provide a rigorous justification of the classical linearization approach in plasticity. By taking...
In this chapter we investigate the variational modeling of the evolution of inelastic microstructure...
We provide a global existence result for the time-continuous elastoplasticity problem using the ene...
The finite element simulation of plastic strain localization phenomena generally exhibits a strong d...
AbstractThis paper is devoted to the study of gradient plasticity at small strains. Some time-indepe...
We provide a global existence result for the time-continuous elastoplasticity problem using the ener...
This paper summarises the general strategy for time evolving finite elastoplasticity and outlines en...
An important class of finite-strain elastoplasticity is based on the multiplicative decomposition o...
An important class of finite-strain elastoplasticity is based on the multiplicative decomposition of...
Gradient plasticity at large strains with kinematic hardening is analyzed as quasistatic rate-indepe...
Modern mathematical approaches to plasticity lead to non-convex minimization problems for which the ...
The boundary value problem representing one time step of the primal formulation of elastoplasticity ...
We propose an approach to the definition and analysis of material instabilities in rate-independent ...
This paper presents computationally feasible rank-one relaxation algorithms for the efficient simula...
Relaxation is a promosing technique to overcome mesh-dependency in computational damage mechanics or...
We provide a rigorous justification of the classical linearization approach in plasticity. By taking...
In this chapter we investigate the variational modeling of the evolution of inelastic microstructure...
We provide a global existence result for the time-continuous elastoplasticity problem using the ene...
The finite element simulation of plastic strain localization phenomena generally exhibits a strong d...
AbstractThis paper is devoted to the study of gradient plasticity at small strains. Some time-indepe...
We provide a global existence result for the time-continuous elastoplasticity problem using the ener...