Global/local method in conjunction with a special macro finite element is used to gain computational efficiency in the simulation of textile composites behavior. Results are included to demonstrate the effectiveness of the method. Also, 2D finite elements are used to study boundary effects in plain weave composite specimens subjected to extension, shear, and flexure loads. Effective extension, shear, and flexural moduli were found to be quite sensitive to specimen size. For extension and flexure loads stress distributions were affected by a free surface, but the free surface boundary effect did not appear to propagate very far into the interior. For shear load, the boundary effect appeared to propagate much further into the interior. The re...
ABSTRACT: The increase in computational power has made performing virtual experiments of various tex...
A method for performing a global/local stress analysis is described and its capabilities are demonst...
AbstractRecent advances in computational speed have resulted in the ability to model composite mater...
ABSTRACT: The analysis of textile composites is complicated by the complex micro-structure. It is no...
Textile composites have the advantage over laminated composites of a significantly greater damage to...
To enable higher fidelity studies of laminated and 3D textile composites, a scalable finite element ...
International audienceThe textile composite studied is a 3D woven composite. A unit cell is defined ...
A reasonable boundary condition for the meso-scale finite element (FE) simulation of textile composi...
International audienceFinite element analyses of composite reinforcement forming are presented at ma...
A micromechanics based methodology to simulate the complete hygro-thermomechanical behavior of plain...
A new boundary element formulation for the micromechanical analysis of composite materials is presen...
Techniques were developed and described for performing three-dimensional finite element analysis of ...
AbstractThis paper demonstrates the modeling of woven fabric textile composite under in-plain shear ...
This paper presents an initial computational multiscale modelling of the fibre-reinforced composite ...
The objective of this work is the prediction of all three dimensional elastic moduli of textile fabr...
ABSTRACT: The increase in computational power has made performing virtual experiments of various tex...
A method for performing a global/local stress analysis is described and its capabilities are demonst...
AbstractRecent advances in computational speed have resulted in the ability to model composite mater...
ABSTRACT: The analysis of textile composites is complicated by the complex micro-structure. It is no...
Textile composites have the advantage over laminated composites of a significantly greater damage to...
To enable higher fidelity studies of laminated and 3D textile composites, a scalable finite element ...
International audienceThe textile composite studied is a 3D woven composite. A unit cell is defined ...
A reasonable boundary condition for the meso-scale finite element (FE) simulation of textile composi...
International audienceFinite element analyses of composite reinforcement forming are presented at ma...
A micromechanics based methodology to simulate the complete hygro-thermomechanical behavior of plain...
A new boundary element formulation for the micromechanical analysis of composite materials is presen...
Techniques were developed and described for performing three-dimensional finite element analysis of ...
AbstractThis paper demonstrates the modeling of woven fabric textile composite under in-plain shear ...
This paper presents an initial computational multiscale modelling of the fibre-reinforced composite ...
The objective of this work is the prediction of all three dimensional elastic moduli of textile fabr...
ABSTRACT: The increase in computational power has made performing virtual experiments of various tex...
A method for performing a global/local stress analysis is described and its capabilities are demonst...
AbstractRecent advances in computational speed have resulted in the ability to model composite mater...