International audienceFracture of rubber-like materials is still an open problem. Indeed, it deals with modelling issues (crack growth law, bulk behaviour) and computational issues (robust crack growth in 2D and 3D, incompressibility). The present study focuses on the application of the eXtended Finite Element Method (X-FEM) to large strain fracture mechanics for plane stress problems. Two important issues are investigated: the choice of the formulation used to solve the problem and the determination of suitable enrichment functions. It is demonstrated that the results obtained with the method are in good agreement with previously published works
A variant of the extended finite element method is presented which facilitates the use of enriched e...
While the regular Finite Element Method (FEM) is well developed and robust, it is not particularly w...
International audienceOver the 15 last years, several numerical methods have been devised to make th...
International audienceFracture of rubber-like materials is still an open problem. Indeed, it deals w...
Rubber-like materials are used in a wide range of applications (from basic to high-tech one). Failur...
The aim of the paper is to study the capabilities of the Extended Finite Element Method (XFEM) to ac...
International audienceNumerical crack propagation schemes were augmented in an elegant manner by the...
Determining stress intensity factors is important in fracture mechanics. The extended finite element...
The eXtended Finite Element Method is a partition of unity based method, particularly suitable for m...
Numerical crack propagation schemes were augmented in an elegant manner by the X-FEM method. The use...
The extended finite element method is an innovative approach based on finite element method. Where f...
AbstractA simple and efficient extended finite element method (XFEM) approach has been presented to ...
International audienceThis paper focuses on two improvements of the extended finite element method (...
AbstractIn the present work, extended finite element method (XFEM) has been extended to simulate non...
Finite element methods for the simulation of dynamic fracture in plane structures are presented. The...
A variant of the extended finite element method is presented which facilitates the use of enriched e...
While the regular Finite Element Method (FEM) is well developed and robust, it is not particularly w...
International audienceOver the 15 last years, several numerical methods have been devised to make th...
International audienceFracture of rubber-like materials is still an open problem. Indeed, it deals w...
Rubber-like materials are used in a wide range of applications (from basic to high-tech one). Failur...
The aim of the paper is to study the capabilities of the Extended Finite Element Method (XFEM) to ac...
International audienceNumerical crack propagation schemes were augmented in an elegant manner by the...
Determining stress intensity factors is important in fracture mechanics. The extended finite element...
The eXtended Finite Element Method is a partition of unity based method, particularly suitable for m...
Numerical crack propagation schemes were augmented in an elegant manner by the X-FEM method. The use...
The extended finite element method is an innovative approach based on finite element method. Where f...
AbstractA simple and efficient extended finite element method (XFEM) approach has been presented to ...
International audienceThis paper focuses on two improvements of the extended finite element method (...
AbstractIn the present work, extended finite element method (XFEM) has been extended to simulate non...
Finite element methods for the simulation of dynamic fracture in plane structures are presented. The...
A variant of the extended finite element method is presented which facilitates the use of enriched e...
While the regular Finite Element Method (FEM) is well developed and robust, it is not particularly w...
International audienceOver the 15 last years, several numerical methods have been devised to make th...