AbstractA new cohesive zone model to describe fracture of interfaces with a microstructurs made of fibrils with statistically distributed in-plane and out-of-plane orientations is proposed. The elementary force–displacement relation of each fibril is considered to obey the peeling theory of a tape, although other refined constitutive relations could be invoked for the adhesive constitutive response without any lack of generality. The proposed consistent 2D and 3D interface finite element formulations for large displacements account for both the mechanical and the geometrical tangent stiffness matrices, required for implicit solution schemes. After a preliminary discussion on model parameters identification, it is shown that by tailoring the...
The focus of this dissertation is on developing efficient modeling techniques to study facesheet-cor...
This paper describes a geometrically nonlinear formulation for an interface and its applica-tion to ...
A comparison between the prediction of crack propagation through an adhesive interface based on a f...
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...
AbstractIn the framework of numerical analysis of joined bodies, the present paper is devoted to the...
Mechanical interfaces are theoretical and computational tools able to properly reproduce the progres...
High values for the work of separation have been reported in peel tests on fibrillating interfacial ...
AbstractThe present work deals with the formulation of a kinematic enriched model for cohesive inter...
The recently developed hybrid discontinuous Galerkin/extrinsic cohesive law framework is extended to...
Cohesive interfaces appear in many materials or structures, e.g. composites or adhesive bonds. Origi...
Interfacial fibrilation is a typical mechanism that frequently occurs during delamination of a polym...
The nonlinear behavior and failure of highly filled elastomers are significantly impacted by the vol...
AbstractA model is developed for predicting separation along interfaces of pressure sensitive adhesi...
The focus of this dissertation is on developing efficient modeling techniques to study facesheet-cor...
This paper describes a geometrically nonlinear formulation for an interface and its applica-tion to ...
A comparison between the prediction of crack propagation through an adhesive interface based on a f...
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...
AbstractIn the framework of numerical analysis of joined bodies, the present paper is devoted to the...
Mechanical interfaces are theoretical and computational tools able to properly reproduce the progres...
High values for the work of separation have been reported in peel tests on fibrillating interfacial ...
AbstractThe present work deals with the formulation of a kinematic enriched model for cohesive inter...
The recently developed hybrid discontinuous Galerkin/extrinsic cohesive law framework is extended to...
Cohesive interfaces appear in many materials or structures, e.g. composites or adhesive bonds. Origi...
Interfacial fibrilation is a typical mechanism that frequently occurs during delamination of a polym...
The nonlinear behavior and failure of highly filled elastomers are significantly impacted by the vol...
AbstractA model is developed for predicting separation along interfaces of pressure sensitive adhesi...
The focus of this dissertation is on developing efficient modeling techniques to study facesheet-cor...
This paper describes a geometrically nonlinear formulation for an interface and its applica-tion to ...
A comparison between the prediction of crack propagation through an adhesive interface based on a f...