Add to ORKGIn this talk, a variational model is proposed for the description of ductile failure in composite materials consisting of short strengthening fibers embedded in brittle matrices. The composite is schematized as a mixture of two phases coupled by elastic bonds: a brittle phase and a plastic phase account for matrix and fibers contributions, respectively. Balance and evolution equations are variationally deduced, and the role played by three different internal lengths is discussed. Finally, results of numerical simulations are shown.Non UBCUnreviewedAuthor affiliation: Polytechnic University of MarcheResearche
In the present paper, a computational model for brittle-matrix fibre-reinforced composite (FRC) mate...
Knowledge of the structural behaviour of fiber-reinforced brittle-matrix composites can lead to impr...
Modeling complex material failure with competing mechanisms is a difficult task that often leads to ...
In this talk, a variational model is proposed for the description of ductile failure in composite ma...
Composites made of reinforcing short fibers embedded into brittle matrices, like, e.g., fiber-reinfo...
A variational micro-mechanical model is proposed to reproduce the complex response of fiber-reinforc...
The use of reinforcing fibres has shown to be an effective, simple and economic way to enhance the m...
International audienceThe phase-field approach to fracture is an effective method to describe and si...
This study presents a crack phase-field approach for anisotropic continua to model, in particular, f...
This study presents a phase-field approach for an anisotropic continuum to model fracture of biologi...
In the present paper, a computational model for brittle-matrix fibre-reinforced composite (FRC) mate...
ABSTRACT: A numerical investigation into the effect of interphase properties on the transverse stren...
A nonlinear fracture mechanics model is proposed for analysis of the flexural behavior of brittle-ma...
Se trata de un enfoque varacional a la modelización de fractura tanto frágil como dúctil. Se usa una...
In the last few years, several authors have proposed different phase-field models aimed at describin...
In the present paper, a computational model for brittle-matrix fibre-reinforced composite (FRC) mate...
Knowledge of the structural behaviour of fiber-reinforced brittle-matrix composites can lead to impr...
Modeling complex material failure with competing mechanisms is a difficult task that often leads to ...
In this talk, a variational model is proposed for the description of ductile failure in composite ma...
Composites made of reinforcing short fibers embedded into brittle matrices, like, e.g., fiber-reinfo...
A variational micro-mechanical model is proposed to reproduce the complex response of fiber-reinforc...
The use of reinforcing fibres has shown to be an effective, simple and economic way to enhance the m...
International audienceThe phase-field approach to fracture is an effective method to describe and si...
This study presents a crack phase-field approach for anisotropic continua to model, in particular, f...
This study presents a phase-field approach for an anisotropic continuum to model fracture of biologi...
In the present paper, a computational model for brittle-matrix fibre-reinforced composite (FRC) mate...
ABSTRACT: A numerical investigation into the effect of interphase properties on the transverse stren...
A nonlinear fracture mechanics model is proposed for analysis of the flexural behavior of brittle-ma...
Se trata de un enfoque varacional a la modelización de fractura tanto frágil como dúctil. Se usa una...
In the last few years, several authors have proposed different phase-field models aimed at describin...
In the present paper, a computational model for brittle-matrix fibre-reinforced composite (FRC) mate...
Knowledge of the structural behaviour of fiber-reinforced brittle-matrix composites can lead to impr...
Modeling complex material failure with competing mechanisms is a difficult task that often leads to ...