This paper presents a methodology for the analysis of three-dimensional static fractures in fiber-reinforced materials. Fibers are discretely modeled using a modification of the embedded reinforcement method with bond Slip (mERS) that allows its combination with a generalized finite element method (GFEM) for three-dimensional fractures. Since the GFEM mesh does not need to fit fracture surfaces or fibers, the GFEM–mERS can handle fibers bridging across crack faces at arbitrary angles. The method is verified against three-dimensional FEM solutions using conformal discretizations for crack surfaces and fiber boundaries. The comparison of the method against experimental data and convergence studies of the h- and p-version of the method is also...
AbstractThe generalized FEM (GFEM) has been successfully applied to the simulation of dynamic propag...
This contribution is concerned with the development of the eXtended Finite Element Method to model d...
58 p.A method was proposed to develop a 'composite' element for idealising a three-dimensional compo...
Fiber reinforcements are used in a broad variety of materials in engineering. They increase the stre...
The realistic simulation of the behavioral mechanisms of Fiber Reinforced Composites poses a computa...
Recently several studies have been performed at the TUDelft on the use of the generalized finite ele...
This paper shows that the generalized finite element method with global–local enrichment functions (...
This report shows that the so-called generalized finite element method with global-local enrichment ...
This paper presents a Generalized Finite Element Method (GFEM) based on the solution of interdepende...
AbstractA three-dimensional enriched finite-element methodology is presented to compute stress inten...
This paper presents a generalized finite element method (GFEM) for crack growth simulations based on...
This contribution is concerned with the development of the eXtended Finite Element Method to model f...
This paper deals with the use of eXtended Finite Element Method (XFEM) to perform local effects in ...
Three-dimensional (3-D) crack growth analysis is crucial for the assessment of structures such as ai...
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 contribution is concerned with the development of the eXtended Finite Element Method to model d...
58 p.A method was proposed to develop a 'composite' element for idealising a three-dimensional compo...
Fiber reinforcements are used in a broad variety of materials in engineering. They increase the stre...
The realistic simulation of the behavioral mechanisms of Fiber Reinforced Composites poses a computa...
Recently several studies have been performed at the TUDelft on the use of the generalized finite ele...
This paper shows that the generalized finite element method with global–local enrichment functions (...
This report shows that the so-called generalized finite element method with global-local enrichment ...
This paper presents a Generalized Finite Element Method (GFEM) based on the solution of interdepende...
AbstractA three-dimensional enriched finite-element methodology is presented to compute stress inten...
This paper presents a generalized finite element method (GFEM) for crack growth simulations based on...
This contribution is concerned with the development of the eXtended Finite Element Method to model f...
This paper deals with the use of eXtended Finite Element Method (XFEM) to perform local effects in ...
Three-dimensional (3-D) crack growth analysis is crucial for the assessment of structures such as ai...
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 contribution is concerned with the development of the eXtended Finite Element Method to model d...
58 p.A method was proposed to develop a 'composite' element for idealising a three-dimensional compo...