Add to ORKGThis work deals with the formulation of a thermodynamically consistent, isotropic damage cohesive model for mixed-mode delamination under variable mode ratio. The proposed model is based on the introduction of an internal friction angle in the tensile case, that allows for an accurate modelling of the interaction between normal and shear openings
Cohesive-zone models for interfaces incorporate both strength and energy parameters. There-fore, the...
The cohesive-zone model has proven to be an effective tool to model non-linear fracture processes, s...
AbstractA constitutive model for interface debonding is proposed which is able to account for mixed-...
This work deals with the formulation of a thermodynamically consistent, isotropic damage cohesive mo...
This work is devoted to the formulation of a new cohesive model for mixed-mode delamination. The mod...
This work is devoted to the formulation of a new cohesive model for mixed-mode delamination. The ...
A new isotropic damage cohesive model for the simulation of mixed-mode delamination is presented. Th...
A new framework for the formulation and validation of interface cohesive models for mixed mode I- mo...
AbstractIn the present paper a new thermodynamically consistent cohesive interface model is proposed...
This work addresses the formulation of a new mixed-mode cohesive model, able to handle the transitio...
A new interface constitutive model based on damage mechanics and frictional plasticity is presented....
In the present paper a new thermodynamically consistent cohesive interface model is proposed; it bas...
Cohesive-zone models for interfaces incorporate both strength and energy parameters. There-fore, the...
The cohesive-zone model has proven to be an effective tool to model non-linear fracture processes, s...
AbstractA constitutive model for interface debonding is proposed which is able to account for mixed-...
This work deals with the formulation of a thermodynamically consistent, isotropic damage cohesive mo...
This work is devoted to the formulation of a new cohesive model for mixed-mode delamination. The mod...
This work is devoted to the formulation of a new cohesive model for mixed-mode delamination. The ...
A new isotropic damage cohesive model for the simulation of mixed-mode delamination is presented. Th...
A new framework for the formulation and validation of interface cohesive models for mixed mode I- mo...
AbstractIn the present paper a new thermodynamically consistent cohesive interface model is proposed...
This work addresses the formulation of a new mixed-mode cohesive model, able to handle the transitio...
A new interface constitutive model based on damage mechanics and frictional plasticity is presented....
In the present paper a new thermodynamically consistent cohesive interface model is proposed; it bas...
Cohesive-zone models for interfaces incorporate both strength and energy parameters. There-fore, the...
The cohesive-zone model has proven to be an effective tool to model non-linear fracture processes, s...
AbstractA constitutive model for interface debonding is proposed which is able to account for mixed-...