The generalized FEM (GFEM) has been successfully applied to the simulation of dynamic propagating fractures, polycrystalline and fiber-reinforced microstructures, porous materials, etc. A-priori knowledge about the solution of these problems are used in the definition of their GFEM approximation spaces. This leads to more accurate and robust simulations than available finite element methods while relaxing some meshing requirements. This is demonstrated in a simulation of intergranular crack propagation in a brittle polycrystal using simple background meshes. For many classes of problems – like those with material non-linearities or involvingmultiscale phenomena – a-priori knowledge of the solution behavior is limited. In this paper, we pres...
The global-local analysis procedure in the Finite Element Method is broadly used in industry for the...
Phenomena spanning multiple spatial scales and encompassing multiple physics disciplines of interest...
Phenomena spanning multiple spatial scales and encompassing multiple physics disciplines of interest...
The generalized FEM (GFEM) has been successfully applied to the simulation of dynamic propagating fr...
AbstractThe generalized FEM (GFEM) has been successfully applied to the simulation of dynamic propag...
The generalized FEM (GFEM) has been successfully applied to the simulation of dynamic propagating fr...
AbstractThe generalized FEM (GFEM) has been successfully applied to the simulation of dynamic propag...
This paper presents a generalized finite element method (GFEM) for crack growth simulations based on...
Many problems of engineering relevance in computational mechanics involve analysis of structural be...
This paper presents a Generalized Finite Element Method (GFEM) based on the solution of interdepende...
This report shows that the so-called generalized finite element method with global-local enrichment ...
This paper shows that the generalized finite element method with global–local enrichment functions (...
Three-dimensional (3-D) crack growth analysis is crucial for the assessment of structures such as ai...
The realistic simulation of the behavioral mechanisms of Fiber Reinforced Composites poses a computa...
Three-dimensional (3-D) crack growth analysis is crucial for the assessment of structures such as ai...
The global-local analysis procedure in the Finite Element Method is broadly used in industry for the...
Phenomena spanning multiple spatial scales and encompassing multiple physics disciplines of interest...
Phenomena spanning multiple spatial scales and encompassing multiple physics disciplines of interest...
The generalized FEM (GFEM) has been successfully applied to the simulation of dynamic propagating fr...
AbstractThe generalized FEM (GFEM) has been successfully applied to the simulation of dynamic propag...
The generalized FEM (GFEM) has been successfully applied to the simulation of dynamic propagating fr...
AbstractThe generalized FEM (GFEM) has been successfully applied to the simulation of dynamic propag...
This paper presents a generalized finite element method (GFEM) for crack growth simulations based on...
Many problems of engineering relevance in computational mechanics involve analysis of structural be...
This paper presents a Generalized Finite Element Method (GFEM) based on the solution of interdepende...
This report shows that the so-called generalized finite element method with global-local enrichment ...
This paper shows that the generalized finite element method with global–local enrichment functions (...
Three-dimensional (3-D) crack growth analysis is crucial for the assessment of structures such as ai...
The realistic simulation of the behavioral mechanisms of Fiber Reinforced Composites poses a computa...
Three-dimensional (3-D) crack growth analysis is crucial for the assessment of structures such as ai...
The global-local analysis procedure in the Finite Element Method is broadly used in industry for the...
Phenomena spanning multiple spatial scales and encompassing multiple physics disciplines of interest...
Phenomena spanning multiple spatial scales and encompassing multiple physics disciplines of interest...