A general technique to embed non-uniform displacement discontinuities into standard solid finite elements is presented. The technique is based on the decomposition of the kinematic fields into a component related to the deformation of the solid portion of the element and one related to the rigid-body motion due to a displacement discontinuity. This decomposition simplifies the incorporation of discontinuity interfaces and provides a suitable framework to account for non-uniform discontinuity modes. The present publication addresses two families of finite element formulations: displacement-based and stress hybrid finite element. © 2005 Elsevier Ltd. All rights reserved
peer reviewedPartition of unity methods, such as the extended finite element method, allows disconti...
This paper presents different variational formulations for the modeling of damage in solids by the e...
International audienceA technique for modelling arbitrary discontinuities in finite elements is pres...
In this paper, strong discontinuities are embedded in finite elements to describe fracture in quasi-...
Summary. In this work, a strong embedded discontinuity approach is used to model fracture in quasi-b...
In strong discontinuity models the presence of a discontinuity such as a crack or a slip surface wit...
Several local embedded discontinuity formulations have already been developed, in which constant str...
ABSTRACT. The paper presents an overview of modern approximation techniques for explicit res-olution...
Additional, discontinuous functions are added to the displacement field of standard finite elements ...
The computational simulation of failure in solids poses many challenges. A proper understanding of h...
International audienceThis paper analyses in detail the use of the Embedded Finite Element Method (E...
Additional, discontinuous functions are added to the displacement field of standard finite elements ...
Discontinuities can appear in different fields of mechanics. Some examples where discontinuities ari...
The embedded discontinuity approximation in the finite element method has proved to be a useful meth...
The possibility of embedding strong discontinuities into finite elements allowed the simulation of d...
peer reviewedPartition of unity methods, such as the extended finite element method, allows disconti...
This paper presents different variational formulations for the modeling of damage in solids by the e...
International audienceA technique for modelling arbitrary discontinuities in finite elements is pres...
In this paper, strong discontinuities are embedded in finite elements to describe fracture in quasi-...
Summary. In this work, a strong embedded discontinuity approach is used to model fracture in quasi-b...
In strong discontinuity models the presence of a discontinuity such as a crack or a slip surface wit...
Several local embedded discontinuity formulations have already been developed, in which constant str...
ABSTRACT. The paper presents an overview of modern approximation techniques for explicit res-olution...
Additional, discontinuous functions are added to the displacement field of standard finite elements ...
The computational simulation of failure in solids poses many challenges. A proper understanding of h...
International audienceThis paper analyses in detail the use of the Embedded Finite Element Method (E...
Additional, discontinuous functions are added to the displacement field of standard finite elements ...
Discontinuities can appear in different fields of mechanics. Some examples where discontinuities ari...
The embedded discontinuity approximation in the finite element method has proved to be a useful meth...
The possibility of embedding strong discontinuities into finite elements allowed the simulation of d...
peer reviewedPartition of unity methods, such as the extended finite element method, allows disconti...
This paper presents different variational formulations for the modeling of damage in solids by the e...
International audienceA technique for modelling arbitrary discontinuities in finite elements is pres...