This paper presents computationally feasible rank-one relaxation algorithms for the efficient simulation of a time-incremental damage model with nonconvex incremental stress potentials in multiple spatial dimensions. While the standard model suffers from numerical issues due to the lack of convexity, our experiments showed that the relaxation by rank-one convexification delivering an approximation to the quasiconvex envelope prevents mesh dependence of the solutions of finite element discretizations. By the combination, modification and parallelization of the underlying convexification algorithms, the novel approach becomes computationally feasible. A descent method and a Newton scheme enhanced by step-size control prevent stability issues ...
We address a model for rate-independent, partial, isotropic damage in quasistatic small strain linea...
A new energy relaxation technique for nonconvex inelasticity is applied to an isotropic damage model...
Boundary value problems for a softening material suer from loss of uniqueness in the post-peak regim...
This paper presents computationally feasible rank-one relaxation algorithms for the efficient simula...
The brief history of relaxation in continuum mechanics ranges from early application of non-convex p...
Relaxation is a promosing technique to overcome mesh-dependency in computational damage mechanics or...
The paper outlines a relaxation method based on a particular isotropic microstructure evolution and ...
In this paper, an incremental variational formulation for damage at finite strains is presented. The...
The modeling of damage processes in materials constitutes an ill-posed mathematical problem which ma...
This paper summarises the general strategy for time evolving finite elastoplasticity and outlines en...
This work provides a convergence analysis of a time-discrete scheme coupled with a finite-element ap...
Material models exhibiting softening effects due to damage or localization share the problem of lead...
A method for the regularization of continuum damage material models based on gradient-type enhanceme...
We propose an approach to the definition and analysis of material instabilities in rate-independent ...
As damage occurs in the context of high stresses that are also related to the presence of plastic st...
We address a model for rate-independent, partial, isotropic damage in quasistatic small strain linea...
A new energy relaxation technique for nonconvex inelasticity is applied to an isotropic damage model...
Boundary value problems for a softening material suer from loss of uniqueness in the post-peak regim...
This paper presents computationally feasible rank-one relaxation algorithms for the efficient simula...
The brief history of relaxation in continuum mechanics ranges from early application of non-convex p...
Relaxation is a promosing technique to overcome mesh-dependency in computational damage mechanics or...
The paper outlines a relaxation method based on a particular isotropic microstructure evolution and ...
In this paper, an incremental variational formulation for damage at finite strains is presented. The...
The modeling of damage processes in materials constitutes an ill-posed mathematical problem which ma...
This paper summarises the general strategy for time evolving finite elastoplasticity and outlines en...
This work provides a convergence analysis of a time-discrete scheme coupled with a finite-element ap...
Material models exhibiting softening effects due to damage or localization share the problem of lead...
A method for the regularization of continuum damage material models based on gradient-type enhanceme...
We propose an approach to the definition and analysis of material instabilities in rate-independent ...
As damage occurs in the context of high stresses that are also related to the presence of plastic st...
We address a model for rate-independent, partial, isotropic damage in quasistatic small strain linea...
A new energy relaxation technique for nonconvex inelasticity is applied to an isotropic damage model...
Boundary value problems for a softening material suer from loss of uniqueness in the post-peak regim...