We propose an adaptive numerical strategy that aims at developing reliable and efficient numerical tools to model dynamic crack propagation and crack arrest. We use the cohesive zone theory as behavior of interface-type elements to model crack. Since the crack path is generally unknown beforehand, adaptive meshing is proposed to model the dynamic crack propagation. The dynamic study requires the development of specific solvers for time integration. As both geometry and finite element mesh of the studied structure evolve in time during transient analysis, the stability behavior of dynamic solver becomes a major concern. For this purpose, we use the space-time discontinuous Galerkin finite element method [1-2], well-known to provide a natural...
This thesis concerns finite element methods for the numerical simulation of crack propagation includ...
Dynamic crack microbranching processes in brittle materials are investigated by means of a computati...
In the past few years, lots of techniques were developped for modeling dynamic crack growth. One of ...
We propose an adaptive numerical strategy that aims at developing reliable and efficient numerical t...
A recently proposed Discontinuous Galerkin (DG) method for modeling nonlinear fracture mechanics pro...
We present an energy-preserving mechanic formulation for dynamic quasi-brittle fracture in an Euleri...
This paper presents an approach to the numerical simulation of crack propa-gation with cohesive mode...
We present a method to reduce mesh bias in dynamic fracture simulations using the finite element met...
A new methodology to predict dynamic crack propagation under generalized loading conditions is propo...
This paper presents an adaptive, space-time finite element model for oxidation-driven fracture. The ...
International audienceThis paper presents an approach to the numerical simulation of crack propagati...
International audienceThis paper presents a concurrent mesh and model adaptive approach that ensure ...
We present a method to reduce mesh bias in dynamic fracture simulations using the finite element met...
This thesis concerns finite element methods for the numerical simulation of crack propagation includ...
Dynamic crack microbranching processes in brittle materials are investigated by means of a computati...
In the past few years, lots of techniques were developped for modeling dynamic crack growth. One of ...
We propose an adaptive numerical strategy that aims at developing reliable and efficient numerical t...
A recently proposed Discontinuous Galerkin (DG) method for modeling nonlinear fracture mechanics pro...
We present an energy-preserving mechanic formulation for dynamic quasi-brittle fracture in an Euleri...
This paper presents an approach to the numerical simulation of crack propa-gation with cohesive mode...
We present a method to reduce mesh bias in dynamic fracture simulations using the finite element met...
A new methodology to predict dynamic crack propagation under generalized loading conditions is propo...
This paper presents an adaptive, space-time finite element model for oxidation-driven fracture. The ...
International audienceThis paper presents an approach to the numerical simulation of crack propagati...
International audienceThis paper presents a concurrent mesh and model adaptive approach that ensure ...
We present a method to reduce mesh bias in dynamic fracture simulations using the finite element met...
This thesis concerns finite element methods for the numerical simulation of crack propagation includ...
Dynamic crack microbranching processes in brittle materials are investigated by means of a computati...
In the past few years, lots of techniques were developped for modeling dynamic crack growth. One of ...