Abstract. Considering a semi-infinite planar crack propagating along a plane where the local toughness is a random field, the addressed problem is to compute the effective (or homogeneous and macroscopic) toughness. After a brief introduction to the two regimes — strong and weak pinning — that are expected depending on the system size, a self-consistent homogenization scheme is introduced. It is shown that this scheme allows one to predict not only the mean value but also the standard deviation and even the complete probability distribution function of the toughness. A discussion about the quality of this prediction as compared with direct numerical simulations is proposed
The development of predictive tools that bridge microscopic to macroscopic scales in brittle fractu...
A computational multiscale framework is proposed that incorporates microstructural behaviour in a ma...
The self-consistent scheme (Budiansky, 1965) is one of the analytical methods to predict the effecti...
The propagation of an adhesive crack through an anisotropic heterogeneous interface is considered. T...
The relevant parameters at the microstructure scale that govern the macroscopic toughness of disorde...
International audienceTraditional computational approaches in simulating crack propagation in perfec...
A new approach to defining the effective fracture toughness for heterogeneous materials is proposed....
Computational homogenization of microstructures with randomly distributed cracks is studied. The pur...
We propose a versatile approach to computing the effective toughness of heterogeneous media. This ap...
Computational homogenization allows to let the macroscopic constitutive behavior of materials emerge...
The existence of a representative volume element (RVE) for a class of quasi-brittle materials having...
\ua9 2016 John Wiley and Sons, Ltd. The effective response of microstructures undergoing crack propa...
The propagation of (planar) cracks in a heterogeneous brittle material characterized by a random fie...
In this manuscript we present an extension of the computational homogenization scheme for cohesive c...
The conventional multiscale homogenization theory, which has mainly been applied to determine consti...
The development of predictive tools that bridge microscopic to macroscopic scales in brittle fractu...
A computational multiscale framework is proposed that incorporates microstructural behaviour in a ma...
The self-consistent scheme (Budiansky, 1965) is one of the analytical methods to predict the effecti...
The propagation of an adhesive crack through an anisotropic heterogeneous interface is considered. T...
The relevant parameters at the microstructure scale that govern the macroscopic toughness of disorde...
International audienceTraditional computational approaches in simulating crack propagation in perfec...
A new approach to defining the effective fracture toughness for heterogeneous materials is proposed....
Computational homogenization of microstructures with randomly distributed cracks is studied. The pur...
We propose a versatile approach to computing the effective toughness of heterogeneous media. This ap...
Computational homogenization allows to let the macroscopic constitutive behavior of materials emerge...
The existence of a representative volume element (RVE) for a class of quasi-brittle materials having...
\ua9 2016 John Wiley and Sons, Ltd. The effective response of microstructures undergoing crack propa...
The propagation of (planar) cracks in a heterogeneous brittle material characterized by a random fie...
In this manuscript we present an extension of the computational homogenization scheme for cohesive c...
The conventional multiscale homogenization theory, which has mainly been applied to determine consti...
The development of predictive tools that bridge microscopic to macroscopic scales in brittle fractu...
A computational multiscale framework is proposed that incorporates microstructural behaviour in a ma...
The self-consistent scheme (Budiansky, 1965) is one of the analytical methods to predict the effecti...