Within the continuum mechanics framework, there are two main approaches to model interfaces: classical cohesive zone modeling (CZM) and interface elasticity theory. The classical CZM deals with geometrically non-coherent interfaces for which the constitutive relation is expressed in terms of traction–separation laws. However, CZM lacks any response related to the stretch of the mid-plane of the interface. This issue becomes problematic particularly at small scales with increasing interface area to bulk volume ratios, where interface elasticity is no longer negligible. The interface elasticity theory, in contrast to CZM, deals with coherent interfaces that are endowed with their own energetic structures, and thus is capable of capturing elas...
Mechanical interfaces are theoretical and computational tools able to properly reproduce the progres...
To date, the effects of interface in-plane damage on the thermomechanical response of a thermally ge...
A new cohesive-zone model is presented based on the combination of an elastic-damage formulation, wh...
Within the continuum mechanics framework, there are two main approaches to model interfaces: classic...
Interfaces can play a dominant role in the overall response of a body. The importance of interfaces ...
This paper deals with a novel constitutive framework suitable for non-coherent interfaces, such as c...
The presence of an interface can influence the thermo-mechanical response of a body. This influence ...
Cohesive interfaces appear in many materials or structures, e.g. composites or adhesive bonds. Origi...
The paper presents a nonlocal extension of the elastic-damage interface mechanical model, which is a...
Interfaces can play a dominant role in the thermo-mechanical response of a body. The importance of i...
A three-dimensional (3D) two-scale Cohesive Zone Model (CZM), which is based on a multiplane approac...
Cohesive Zone Models (CZMs) have gained much popularity thanks to their promising applications in nu...
A new method to combine interface damage and friction in a cohesive-zone model is proposed. Starting...
In the present work, an enhanced formulation for cohesive interface that keep into account the effec...
Mechanical interfaces are theoretical and computational tools able to properly reproduce the progres...
To date, the effects of interface in-plane damage on the thermomechanical response of a thermally ge...
A new cohesive-zone model is presented based on the combination of an elastic-damage formulation, wh...
Within the continuum mechanics framework, there are two main approaches to model interfaces: classic...
Interfaces can play a dominant role in the overall response of a body. The importance of interfaces ...
This paper deals with a novel constitutive framework suitable for non-coherent interfaces, such as c...
The presence of an interface can influence the thermo-mechanical response of a body. This influence ...
Cohesive interfaces appear in many materials or structures, e.g. composites or adhesive bonds. Origi...
The paper presents a nonlocal extension of the elastic-damage interface mechanical model, which is a...
Interfaces can play a dominant role in the thermo-mechanical response of a body. The importance of i...
A three-dimensional (3D) two-scale Cohesive Zone Model (CZM), which is based on a multiplane approac...
Cohesive Zone Models (CZMs) have gained much popularity thanks to their promising applications in nu...
A new method to combine interface damage and friction in a cohesive-zone model is proposed. Starting...
In the present work, an enhanced formulation for cohesive interface that keep into account the effec...
Mechanical interfaces are theoretical and computational tools able to properly reproduce the progres...
To date, the effects of interface in-plane damage on the thermomechanical response of a thermally ge...
A new cohesive-zone model is presented based on the combination of an elastic-damage formulation, wh...