Eigenmode analyses of the element stiffness matrices have been used to assess the impact of the applied integration scheme on the stress predictions of two- and three-dimensional plane interface elements. It is demonstrated that large stress gradients over the element and coupling of the individual node-sets of the interface element may result in an oscillatory type of response. For line elements and linear plane interface elements the performance can be improved by using either a nodal lumping scheme or Newton-Cotes or Lobatto integration schemes instead of the more traditional Gauss scheme. For quadratic interface elements the same holds true except for a nodal lumping scheme
The conventional finite element method has been modified so as to allow the elastic stresses along f...
Interface elements are a powerful tool for modelling discontinuities. Herein, we develop an interfac...
This paper describes the difficulties of utilizing large interface elements in delamination simulati...
Eigenmode analyses of the element stiffness matrices have been used to assess the impact of the appl...
The performance of partition of unity-based discontinuous elements was studied by means of a numeric...
The performance of partition of unity-based discontinuous elements was studied by means of a numeric...
The performance of partition of unity\u2010based discontinuous elements was studied by means of a nu...
none3siZero-thickness interface elements are used to model contact surfaces or potential cracks. In ...
Modern computers have enabled engineers to perform large scale analyses of complex structures like e...
International audienceIn spite of some drawbacks, finite element methods based on nodal rather than ...
The nanoindentation technique has been used to identify the interfaces between dissimilar materials ...
In the present paper the non-linear behaviour of a solid body with embedded cohesive interfaces is e...
Decohesion undergoing large displacements takes place in a wide range of applications. In these prob...
A frequently used approach to modeling of fracture along predefined paths (e.g. grain boundaries in ...
The conventional finite element method has been modified so as to allow the elastic stresses along f...
Interface elements are a powerful tool for modelling discontinuities. Herein, we develop an interfac...
This paper describes the difficulties of utilizing large interface elements in delamination simulati...
Eigenmode analyses of the element stiffness matrices have been used to assess the impact of the appl...
The performance of partition of unity-based discontinuous elements was studied by means of a numeric...
The performance of partition of unity-based discontinuous elements was studied by means of a numeric...
The performance of partition of unity\u2010based discontinuous elements was studied by means of a nu...
none3siZero-thickness interface elements are used to model contact surfaces or potential cracks. In ...
Modern computers have enabled engineers to perform large scale analyses of complex structures like e...
International audienceIn spite of some drawbacks, finite element methods based on nodal rather than ...
The nanoindentation technique has been used to identify the interfaces between dissimilar materials ...
In the present paper the non-linear behaviour of a solid body with embedded cohesive interfaces is e...
Decohesion undergoing large displacements takes place in a wide range of applications. In these prob...
A frequently used approach to modeling of fracture along predefined paths (e.g. grain boundaries in ...
The conventional finite element method has been modified so as to allow the elastic stresses along f...
Interface elements are a powerful tool for modelling discontinuities. Herein, we develop an interfac...
This paper describes the difficulties of utilizing large interface elements in delamination simulati...