Cohesive zone (CZ) models have long been used by the scientific community to analyze the progressive damage of materials and interfaces. In these models, non-linear relationships between tractions and relative displacements are assumed, which dictate both the work of separation per unit fracture surface and the peak stress that has to be reached for the crack formation. This contribution deals with isogeometric CZ modeling of interface debonding. The interface is discretized with generalized contact elements which account for both contact and cohesive debonding within a unified framework. The formulation is suitable for non-matching discretizations of the interacting surfaces in presence of large deformations and large relative ...
Interfacial fibrilation is a typical mechanism that frequently occurs during delamination of a polym...
Application of standard cohesive zone models in a finite element framework to simulate delamination ...
Cohesive interfaces appear in many materials or structures, e.g. composites or adhesive bonds. Origi...
Cohesive zone (CZ) models have long been used by the scientific community to analyze the progressiv...
Cohesive zone (CZ) models are increasingly used by the scientific community to analyze the mixed-mo...
In a context where adhesive-bonded joints are increasingly used in aerospace and automotive industri...
AbstractWithin a setting where the isogeometric analysis (IGA) has been successful at bringing two d...
The possibility of enhancing a B-spline basis with discontinuities by means of knot insertion makes ...
Nowadays the isogeometric analysis (IGA) represents an innovative method that merges design and nume...
The objective of this study is to present an extended isogeometric formulation for cohesive fracture...
Two cohesive-zone models, one developed by Valoroso & Champaney and the other initially proposed by ...
In the present research, implementations of different computational geometry technologies in isogeom...
A three-dimensional (3D) two-scale Cohesive Zone Model (CZM), which is based on a multiplane approac...
This paper describes a geometrically nonlinear formulation for an interface and its applica-tion to ...
Within the continuum mechanics framework, there are two main approaches to model interfaces: classic...
Interfacial fibrilation is a typical mechanism that frequently occurs during delamination of a polym...
Application of standard cohesive zone models in a finite element framework to simulate delamination ...
Cohesive interfaces appear in many materials or structures, e.g. composites or adhesive bonds. Origi...
Cohesive zone (CZ) models have long been used by the scientific community to analyze the progressiv...
Cohesive zone (CZ) models are increasingly used by the scientific community to analyze the mixed-mo...
In a context where adhesive-bonded joints are increasingly used in aerospace and automotive industri...
AbstractWithin a setting where the isogeometric analysis (IGA) has been successful at bringing two d...
The possibility of enhancing a B-spline basis with discontinuities by means of knot insertion makes ...
Nowadays the isogeometric analysis (IGA) represents an innovative method that merges design and nume...
The objective of this study is to present an extended isogeometric formulation for cohesive fracture...
Two cohesive-zone models, one developed by Valoroso & Champaney and the other initially proposed by ...
In the present research, implementations of different computational geometry technologies in isogeom...
A three-dimensional (3D) two-scale Cohesive Zone Model (CZM), which is based on a multiplane approac...
This paper describes a geometrically nonlinear formulation for an interface and its applica-tion to ...
Within the continuum mechanics framework, there are two main approaches to model interfaces: classic...
Interfacial fibrilation is a typical mechanism that frequently occurs during delamination of a polym...
Application of standard cohesive zone models in a finite element framework to simulate delamination ...
Cohesive interfaces appear in many materials or structures, e.g. composites or adhesive bonds. Origi...