Decohesion undergoing large displacements takes place in a wide range of applications. In these problems, interface element formulations for large displacements should be used to accurately deal with coupled material and geometrical nonlinearities. The present work proposes a consistent derivation of a new interface element for large deformation analyses. The resulting compact derivation leads to an operational formulation that enables the accommodation of any order of kinematic interpolation and constitutive behavior of the interface. The derived interface element has been implemented into the finite element codes FEAP and ABAQUS by means of user-defined routines. The interplay between geometrical and material nonlinearities is investigate...
AbstractA new cohesive zone model to describe fracture of interfaces with a microstructurs made of f...
AbstractA new cohesive zone model to describe fracture of interfaces with a microstructurs made of f...
This dissertation develops a robust computational framework for solving solid mechanics problems con...
Mechanical interfaces are theoretical and computational tools able to properly reproduce the progres...
In the present paper the non-linear behaviour of a solid body with embedded cohesive interfaces is e...
The most common interface formulations proposed in literature are generally based on the restrictive...
This paper describes a geometrically nonlinear formulation for an interface and its applica-tion to ...
Mechanical interfaces are theoretical and computational tools able to properly reproduce then progre...
Interface mechanical problems in heterogeneous materials require different physical interpretations ...
AbstractThe present work deals with the formulation of a kinematic enriched model for cohesive inter...
The present article proposes a formulation for a cohesive interface element in large displacement co...
The topologies of existing interface elements used to discretize cohesive cracks are such that they ...
A geometrically nonlinear finite element framework for the modeling of strong discontinuities in thr...
Within the continuum mechanics framework, there are two main approaches to model interfaces: classic...
Delamination is typically modelled using cohesive zone models. In this paper, it is shown that the v...
AbstractA new cohesive zone model to describe fracture of interfaces with a microstructurs made of f...
AbstractA new cohesive zone model to describe fracture of interfaces with a microstructurs made of f...
This dissertation develops a robust computational framework for solving solid mechanics problems con...
Mechanical interfaces are theoretical and computational tools able to properly reproduce the progres...
In the present paper the non-linear behaviour of a solid body with embedded cohesive interfaces is e...
The most common interface formulations proposed in literature are generally based on the restrictive...
This paper describes a geometrically nonlinear formulation for an interface and its applica-tion to ...
Mechanical interfaces are theoretical and computational tools able to properly reproduce then progre...
Interface mechanical problems in heterogeneous materials require different physical interpretations ...
AbstractThe present work deals with the formulation of a kinematic enriched model for cohesive inter...
The present article proposes a formulation for a cohesive interface element in large displacement co...
The topologies of existing interface elements used to discretize cohesive cracks are such that they ...
A geometrically nonlinear finite element framework for the modeling of strong discontinuities in thr...
Within the continuum mechanics framework, there are two main approaches to model interfaces: classic...
Delamination is typically modelled using cohesive zone models. In this paper, it is shown that the v...
AbstractA new cohesive zone model to describe fracture of interfaces with a microstructurs made of f...
AbstractA new cohesive zone model to describe fracture of interfaces with a microstructurs made of f...
This dissertation develops a robust computational framework for solving solid mechanics problems con...