This paper presents a generalized finite element formulation which incorporates solid and fluid phases together with a temperature field. The model is developed to obtain time-dependent solutions of complex 2-D cases, such as concrete gravity dams subjected to loading–unloading cycles, non-homogeneous specimens subjected to thermo-mechanical effects, etc. The solid behaviour incorporates a fully coupled cohesive-fracture discrete model, which includes thermal and hydraulic loads and the resulting crack nucleation and propagation is fully described. The evolution of fractures leads to continuous topological changes of the domain and these are handled by systematic local remeshing of the domain and a corresponding change of fluid and thermal ...
A flexible, general and stable mixed formulation is developed to model distributed cracking in cohes...
In order to anticipate effects of ageing in confinement structures of nuclear power plant, the IRSN ...
We present an energy-preserving mechanic formulation for dynamic quasi-brittle fracture in an Euleri...
We present as areas of interest for multifield fracturing thermomechanical fracturing, fluid pressur...
This paper presents a numerical procedure for cohesive hydraulic fracture problems in a multiphase s...
We present a method to reduce mesh bias in dynamic fracture simulations using the finite element met...
This paper presents an approach to the numerical simulation of crack propa-gation with cohesive mode...
The generalized FEM (GFEM) has been successfully applied to the simulation of dynamic propagating fr...
Three-dimensional fracture simulation is a big challenge to computational mechanics because of the c...
A three-dimensional fracture model developed in the context of the combined finite-discrete element ...
AbstractThe generalized FEM (GFEM) has been successfully applied to the simulation of dynamic propag...
The paper presents a fully-coupled numerical model for the analysis of fracture initiation and propa...
The most realistic method used today for the numerical simulation of concrete fracture is the cohesi...
The cohesive element has been widely employed to model delamination and matrix cracking in composite...
As engineers and scientists, we have a host of reasons to understand how structural systems fail. We...
A flexible, general and stable mixed formulation is developed to model distributed cracking in cohes...
In order to anticipate effects of ageing in confinement structures of nuclear power plant, the IRSN ...
We present an energy-preserving mechanic formulation for dynamic quasi-brittle fracture in an Euleri...
We present as areas of interest for multifield fracturing thermomechanical fracturing, fluid pressur...
This paper presents a numerical procedure for cohesive hydraulic fracture problems in a multiphase s...
We present a method to reduce mesh bias in dynamic fracture simulations using the finite element met...
This paper presents an approach to the numerical simulation of crack propa-gation with cohesive mode...
The generalized FEM (GFEM) has been successfully applied to the simulation of dynamic propagating fr...
Three-dimensional fracture simulation is a big challenge to computational mechanics because of the c...
A three-dimensional fracture model developed in the context of the combined finite-discrete element ...
AbstractThe generalized FEM (GFEM) has been successfully applied to the simulation of dynamic propag...
The paper presents a fully-coupled numerical model for the analysis of fracture initiation and propa...
The most realistic method used today for the numerical simulation of concrete fracture is the cohesi...
The cohesive element has been widely employed to model delamination and matrix cracking in composite...
As engineers and scientists, we have a host of reasons to understand how structural systems fail. We...
A flexible, general and stable mixed formulation is developed to model distributed cracking in cohes...
In order to anticipate effects of ageing in confinement structures of nuclear power plant, the IRSN ...
We present an energy-preserving mechanic formulation for dynamic quasi-brittle fracture in an Euleri...