The objective of the present study is to describe the progressive debonding of inclusions in particle or fibre reinforced composites. To do so, the mean-field homogenisation scheme of Mori-Tanaka is enriched to take into account imperfect interfaces. The interfaces are modelled by a bilinear Cohesive Zone Model (CZM) taking into account normal and tangential effects. Results obtained with this new mean-field homogenisation scheme are compared to 2D FE-based numerical simulations that are used as reference results. The effects of inclusions volume fraction and size are also observed
The debonding process at the interface of filler-matrix is studied. The relevance of this process la...
Experimental studies have observed that particulate composite systems experience damage in three pri...
Debonding at the interface is one of the main failure modes for "inclusion-matrix" materials. From a...
Mechanical behavior of inclusion-reinforced composites is affected by the nature of the bond between...
When a particle inclusion is embedded in a polymer matrix, the polymer tends to adsorb on the surfac...
In modern engineering, composite materials gained importance because of their specific properties re...
A new micromechanical damage model accounting for progressive interface debonding is developed for c...
AbstractStarting from Eshelby’s solution of the equivalent inclusion problem, an approximate solutio...
In the present study, the strength and failure of elastomeric composites are predicted by extending ...
AbstractThis paper deals with the micromechanical modeling of particle reinforced elasto-plastic com...
This paper deals with the micromechanical modeling of particle reinforced elasto-plastic composites ...
The nonlinear behavior and failure of highly filled elastomers are significantly impacted by the vol...
Two analytical approaches are developed to determine the overall size-dependent response of composit...
International audienceA well-established methodology to capture interphases in heterogeneous materia...
Aim of the present paper is the development of a homogenization technique able to determine the over...
The debonding process at the interface of filler-matrix is studied. The relevance of this process la...
Experimental studies have observed that particulate composite systems experience damage in three pri...
Debonding at the interface is one of the main failure modes for "inclusion-matrix" materials. From a...
Mechanical behavior of inclusion-reinforced composites is affected by the nature of the bond between...
When a particle inclusion is embedded in a polymer matrix, the polymer tends to adsorb on the surfac...
In modern engineering, composite materials gained importance because of their specific properties re...
A new micromechanical damage model accounting for progressive interface debonding is developed for c...
AbstractStarting from Eshelby’s solution of the equivalent inclusion problem, an approximate solutio...
In the present study, the strength and failure of elastomeric composites are predicted by extending ...
AbstractThis paper deals with the micromechanical modeling of particle reinforced elasto-plastic com...
This paper deals with the micromechanical modeling of particle reinforced elasto-plastic composites ...
The nonlinear behavior and failure of highly filled elastomers are significantly impacted by the vol...
Two analytical approaches are developed to determine the overall size-dependent response of composit...
International audienceA well-established methodology to capture interphases in heterogeneous materia...
Aim of the present paper is the development of a homogenization technique able to determine the over...
The debonding process at the interface of filler-matrix is studied. The relevance of this process la...
Experimental studies have observed that particulate composite systems experience damage in three pri...
Debonding at the interface is one of the main failure modes for "inclusion-matrix" materials. From a...