AbstractRecent advances in computational speed have resulted in the ability to model composite materials using larger representative volume elements (RVEs) with greater numbers of inclusions than have been previously studied. Imposing periodic boundary conditions on very large RVEs can mean enforcing thousands of constraint equations. In addition, a periodic mesh is essential for enforcing the constraints. The present study investigates a method that uses a local implementation of the constraints that does not adversely affect the computational speed. The present study demonstrates the method for two-dimensional triangular and square RVEs of periodically-spaced regular hexagonal and square arrays of composite material containing fibers of e...
AbstractMost micro-mechanical analyses for composites are based on repeated unit cell models (RUCs) ...
AbstractA method that uses a structured grid to perform micromechanical analysis for determining eff...
Periodic unit-cells are the premises for applying the periodic boundary conditions in the meso-scale...
AbstractRecent advances in computational speed have resulted in the ability to model composite mater...
A novel methodology is presented to introduce Periodic Boundary Conditions (PBC) on periodic Represe...
In order to predict the effective properties of heterogeneous materials using the finite element app...
This thesis is concerned with aspects of the computational retrievement of macroscopic material resp...
A common choice for multiscale modeling of the mechanical response of composites is to use periodic ...
Predicting the effective thermo-mechanical response of heterogeneous materials such as composites, u...
International audienceWithin the framework of numerical homogeneization approaches, we focus on the ...
AbstractThis paper introduces an efficient method to automatically generate and mesh a periodic thre...
Composite material elastic behavior has been studied using many approaches, all of which are based o...
Global/local method in conjunction with a special macro finite element is used to gain computational...
This paper presents an implementation-dedicated analysis of Periodic Boundary Conditions (PBCs) for ...
A common choice for multiscale modeling of the mechanical response of composites is to use periodic ...
AbstractMost micro-mechanical analyses for composites are based on repeated unit cell models (RUCs) ...
AbstractA method that uses a structured grid to perform micromechanical analysis for determining eff...
Periodic unit-cells are the premises for applying the periodic boundary conditions in the meso-scale...
AbstractRecent advances in computational speed have resulted in the ability to model composite mater...
A novel methodology is presented to introduce Periodic Boundary Conditions (PBC) on periodic Represe...
In order to predict the effective properties of heterogeneous materials using the finite element app...
This thesis is concerned with aspects of the computational retrievement of macroscopic material resp...
A common choice for multiscale modeling of the mechanical response of composites is to use periodic ...
Predicting the effective thermo-mechanical response of heterogeneous materials such as composites, u...
International audienceWithin the framework of numerical homogeneization approaches, we focus on the ...
AbstractThis paper introduces an efficient method to automatically generate and mesh a periodic thre...
Composite material elastic behavior has been studied using many approaches, all of which are based o...
Global/local method in conjunction with a special macro finite element is used to gain computational...
This paper presents an implementation-dedicated analysis of Periodic Boundary Conditions (PBCs) for ...
A common choice for multiscale modeling of the mechanical response of composites is to use periodic ...
AbstractMost micro-mechanical analyses for composites are based on repeated unit cell models (RUCs) ...
AbstractA method that uses a structured grid to perform micromechanical analysis for determining eff...
Periodic unit-cells are the premises for applying the periodic boundary conditions in the meso-scale...