This contribution presents a two-scale formulation devised to simulate failure in materials with heterogeneous micro-structure. The mechanical model accounts for the nucleation of cohesive cracks in the micro-scale domain. The evolution and propagation of cohesive micro-cracks can induce material instability at the macro-scale level. Then, a cohesive crack is nucleated in the macro-scale model which considers, in a homogenized sense, the constitutive response of the intricate failure mode taking place at the smaller length scale.The two-scale semi-concurrent model is based on the concept of Representative Volume Element (RVE). It is developed following an axiomatic variational structure. Two hypotheses are introduced in order to build the f...
This work focuses on the numerical modeling of fracture and its propagation in heterogeneous materia...
In this manuscript we present an extension of the computational homogenization scheme for cohesive c...
A computational homogenization procedure for cohesive and adhesive crack modeling of materials with ...
This contribution presents a two-scale formulation devised to simulate failure in materials with het...
This contribution presents the theoretical foundations of a Formulation (FOMF) for modeling heteroge...
In the first part of this contribution, a brief theoretical revision of the mechanical and variation...
A computational multiscale framework is proposed that incorporates microstructural behaviour in a ma...
This paper presents a multi-scale modelling approach for bridging the microscale damage and macrosca...
The proposed model considers two well separated physical length scales, namely: (i) the macroscale w...
Computational homogenization allows to let the macroscopic constitutive behavior of materials emerge...
Material behavior and microstructure geometries at small scales strongly influence the physical beha...
Fil: Toro, Sebastián. Universidad Nacional del Litoral. Facultad de Ingeniería y Ciencias Hídricas; ...
In the first part of the manuscript we develop a new method to obtain damage models for solids, by h...
This work focuses on the numerical modeling of fracture and its propagation in heterogeneous materia...
In this manuscript we present an extension of the computational homogenization scheme for cohesive c...
A computational homogenization procedure for cohesive and adhesive crack modeling of materials with ...
This contribution presents a two-scale formulation devised to simulate failure in materials with het...
This contribution presents the theoretical foundations of a Formulation (FOMF) for modeling heteroge...
In the first part of this contribution, a brief theoretical revision of the mechanical and variation...
A computational multiscale framework is proposed that incorporates microstructural behaviour in a ma...
This paper presents a multi-scale modelling approach for bridging the microscale damage and macrosca...
The proposed model considers two well separated physical length scales, namely: (i) the macroscale w...
Computational homogenization allows to let the macroscopic constitutive behavior of materials emerge...
Material behavior and microstructure geometries at small scales strongly influence the physical beha...
Fil: Toro, Sebastián. Universidad Nacional del Litoral. Facultad de Ingeniería y Ciencias Hídricas; ...
In the first part of the manuscript we develop a new method to obtain damage models for solids, by h...
This work focuses on the numerical modeling of fracture and its propagation in heterogeneous materia...
In this manuscript we present an extension of the computational homogenization scheme for cohesive c...
A computational homogenization procedure for cohesive and adhesive crack modeling of materials with ...