In previous publications, strain-energy functions with limiters have been introduced for the prediction of onset of failure in monolithic isotropic hyperelastic materials. In the present investigation, such enhanced strain-energy functions whose ability to accumulate energy is limited have been incorporated with a finite strain micromechanical analysis. As a result, macroscopic constitutive equations have been established which are capable to predict the onset of loss of static stability in a hyperelastic phase of composite materi-als undergoing large deformations. The details of the micromechanical analysis, based on a tangential formulation, for composites with periodic microstructure are presented. The derived micromechanical analysis in...
The influence of the matrix on the transverse tensile properties of unidirectional carbon fiber-rein...
A micromechanical approach can promote understanding of composite material failure mechanisms and in...
Results from a newly developed model for failure in unidirectional fiber reinforced composites based...
ABSTRACT: A model for hyperelastic rubber-like materials that includes the Mullins damage effect has...
This chapter sets out to introduce the reader to the important area of micromechanical modelling for...
A micromechanics theory is proposed for the prediction of the fatigue failure of unidi-rectional com...
Models for the prediction of strength of composite materials are generally directed to short-term fa...
As composites continue to be increasingly used, finite element material models that homogenize the c...
ABSTRACT: The micromechanics of failure was developed to predict the failure of continuous fiber rei...
We propose a micromechanical model that is able to predict the nonlinear behaviour and failure of un...
A finite strain micromechanical model is generalized in order to incorporate the effect of evolving d...
A micromechanical framework for modeling failure in unidirectional (UD) thermoplastic composites und...
In this paper, micromechanical simulations are employed to evaluate the performance of the Tsai–Wu a...
A micromechanics-based constituent progressive damage model was proposed in this study to predict ma...
A new method for the micromechanical finite element analysis of unidirectional composites is present...
The influence of the matrix on the transverse tensile properties of unidirectional carbon fiber-rein...
A micromechanical approach can promote understanding of composite material failure mechanisms and in...
Results from a newly developed model for failure in unidirectional fiber reinforced composites based...
ABSTRACT: A model for hyperelastic rubber-like materials that includes the Mullins damage effect has...
This chapter sets out to introduce the reader to the important area of micromechanical modelling for...
A micromechanics theory is proposed for the prediction of the fatigue failure of unidi-rectional com...
Models for the prediction of strength of composite materials are generally directed to short-term fa...
As composites continue to be increasingly used, finite element material models that homogenize the c...
ABSTRACT: The micromechanics of failure was developed to predict the failure of continuous fiber rei...
We propose a micromechanical model that is able to predict the nonlinear behaviour and failure of un...
A finite strain micromechanical model is generalized in order to incorporate the effect of evolving d...
A micromechanical framework for modeling failure in unidirectional (UD) thermoplastic composites und...
In this paper, micromechanical simulations are employed to evaluate the performance of the Tsai–Wu a...
A micromechanics-based constituent progressive damage model was proposed in this study to predict ma...
A new method for the micromechanical finite element analysis of unidirectional composites is present...
The influence of the matrix on the transverse tensile properties of unidirectional carbon fiber-rein...
A micromechanical approach can promote understanding of composite material failure mechanisms and in...
Results from a newly developed model for failure in unidirectional fiber reinforced composites based...