This paper deals with the adaptive finite element analysis of structural failure. A gradient-enhanced damage model has been chosen to simulate material degradation. Since this model is regularized in the post-peak regime, the finite element solution does not suffer from pathological mesh dependence and thus converges to an objective solution upon mesh refinement. However, the error analyses have shown that the error in the nonlocal equivalent strain field becomes dominant during the post-peak loading stages. The accuracy of the nonlocal equivalent strain field (and the corresponding damage quantity) also greatly influences the accuracy of the quantity of interest. Two error measures have been proposed. The goal-oriented error estimates have...
Due to the character of the original source materials and the nature of batch digitization, quality ...
Abstract Damage models are often used in finite element simulations of concrete structures. Evaluati...
This contribution presents an extended global derivative recovery for enriched finite element method...
This paper deals with the adaptive finite element analysis of structural failure. A gradient-enhance...
The strain softening behavior due to the development of damage is well known to produce unrealistic ...
Nonlocal damage models are typically used to model failure of quasi-brittle materials. Due to brittl...
International audiencePredictive numerical simulation of ductile failure is a necessary step in the ...
An adaptive strategy for nonlinear finite-element analysis, based on the combination of error estima...
AbstractIn this study, an effective and practical, h-version, enrichment mesh generation, and finite...
We present a simple error estimation and mesh adaptation approach for 3D linear elastic crack propag...
The study and prediction of failure is one of the most challenging issues of mechanical ans¡d ...
none3This paper deals with a posteriori estimation of finite element error and adaptivity. In partic...
Accuracy of a finite element solution depends greatly on the spatial discretisation of the problem d...
Two main ingredients are needed for adaptive finite element computations. First, the error of a give...
adaptive methods, extended finite elements Abstract. This paper deals with various aspects of the co...
Due to the character of the original source materials and the nature of batch digitization, quality ...
Abstract Damage models are often used in finite element simulations of concrete structures. Evaluati...
This contribution presents an extended global derivative recovery for enriched finite element method...
This paper deals with the adaptive finite element analysis of structural failure. A gradient-enhance...
The strain softening behavior due to the development of damage is well known to produce unrealistic ...
Nonlocal damage models are typically used to model failure of quasi-brittle materials. Due to brittl...
International audiencePredictive numerical simulation of ductile failure is a necessary step in the ...
An adaptive strategy for nonlinear finite-element analysis, based on the combination of error estima...
AbstractIn this study, an effective and practical, h-version, enrichment mesh generation, and finite...
We present a simple error estimation and mesh adaptation approach for 3D linear elastic crack propag...
The study and prediction of failure is one of the most challenging issues of mechanical ans¡d ...
none3This paper deals with a posteriori estimation of finite element error and adaptivity. In partic...
Accuracy of a finite element solution depends greatly on the spatial discretisation of the problem d...
Two main ingredients are needed for adaptive finite element computations. First, the error of a give...
adaptive methods, extended finite elements Abstract. This paper deals with various aspects of the co...
Due to the character of the original source materials and the nature of batch digitization, quality ...
Abstract Damage models are often used in finite element simulations of concrete structures. Evaluati...
This contribution presents an extended global derivative recovery for enriched finite element method...