Delamination is typically modelled using cohesive zone models. In this paper, it is shown that the validity of most models is limited to small displacements and/or deformations at the interface and the surrounding bulk materials. A large displacement formulation (LDF) is proposed that overcomes issues of the classical formulation with large displacements and deformations at the interface. Subsequently, a 3D cohesive zone element with this LDF is introduced and its numerical implementation is elaborated. Then, a 3D FEM model is proposed and the determination of several model parameters is substantiated. Finally, the implementation is validated by comparing numerical results with experimental observations
Interfacial failure in the form of delamination, often results in malfunction or failure of laminate...
A consistent energy-based cohesive zone model to simulate the mode I delamination behaviour of Fully...
A three-dimensional (3D) two-scale Cohesive Zone Model (CZM), which is based on a multiplane approac...
Delamination is typically modelled using cohesive zone models. In this paper, it is shown that the v...
In recent years, cohesive zone models have been employed to simulate fracture and delamination in so...
Interfacial fibrilation is a typical mechanism that frequently occurs during delamination of a polym...
International audienceThe parameters of cohesive elements have to be chosen correctly in the simulat...
This paper presents a methodology to determine the parameters to be used in the constitutive equatio...
Application of standard cohesive zone models in a finite element framework to simulate delamination ...
The complex failure mechanisms involved in failure of interfaces requires the use of an accurate des...
The wide adoption of composite structures in the aerospace industry asks for reliable numerical meth...
AbstractA new cohesive zone model to describe fracture of interfaces with a microstructurs made of f...
A new cohesive zone model to describe fracture of interfaces with a microstructurs made of fibrils w...
Abstract-Delamination is one of the most common types of damage in structural collapse. To model the...
Interfacial failure in the form of delamination, often results in malfunction or failure of laminate...
A consistent energy-based cohesive zone model to simulate the mode I delamination behaviour of Fully...
A three-dimensional (3D) two-scale Cohesive Zone Model (CZM), which is based on a multiplane approac...
Delamination is typically modelled using cohesive zone models. In this paper, it is shown that the v...
In recent years, cohesive zone models have been employed to simulate fracture and delamination in so...
Interfacial fibrilation is a typical mechanism that frequently occurs during delamination of a polym...
International audienceThe parameters of cohesive elements have to be chosen correctly in the simulat...
This paper presents a methodology to determine the parameters to be used in the constitutive equatio...
Application of standard cohesive zone models in a finite element framework to simulate delamination ...
The complex failure mechanisms involved in failure of interfaces requires the use of an accurate des...
The wide adoption of composite structures in the aerospace industry asks for reliable numerical meth...
AbstractA new cohesive zone model to describe fracture of interfaces with a microstructurs made of f...
A new cohesive zone model to describe fracture of interfaces with a microstructurs made of fibrils w...
Abstract-Delamination is one of the most common types of damage in structural collapse. To model the...
Interfacial failure in the form of delamination, often results in malfunction or failure of laminate...
A consistent energy-based cohesive zone model to simulate the mode I delamination behaviour of Fully...
A three-dimensional (3D) two-scale Cohesive Zone Model (CZM), which is based on a multiplane approac...