A reasonable boundary condition for the meso-scale finite element (FE) simulation of textile composites is necessary for model validation against experiments, which is sometimes over-simplified for saving computation time. This paper examines the influence of boundary conditions on the global stress–strain response and deformation pattern, as well as the local damage and failure characters, through systematically comparison studies of numerical results against experimental results under different loading conditions. The results suggest that reasonable application of periodic boundary conditions can effectively improve the calculation efficiency, and the employment of symmetric boundary conditions along the loading direction will cause the u...
© 2019 The Authors In numerical simulations of reinforcement preforming, fabrics are often modelled ...
Since the 1940s, fiber reinforced polymer (FRP) composites have revolutionized aerospace technologie...
Mesoscale Finite Element (FE) modelling methods of woven and braided composites have attracted great...
Meso-scale finite element method (FEM) is considered as the most effective and economical numerical ...
In this paper, we propose a novel simulation framework for accurately predicting the mechanical resp...
Braided textile-reinforced composites have become increasingly attractive as protection materials th...
Composite materials have brought new development and sizing possibilities for structural components ...
Meso-scale (unit cell of an impregnated textile reinforcement) finite element (FE) modelling of text...
Periodic unit-cells are the premises for applying the periodic boundary conditions in the meso-scale...
In many engineering applications, 3D braided composites are designed for primary loading-bearing str...
International audienceThe textile composite studied is a 3D woven composite. A unit cell is defined ...
Global/local method in conjunction with a special macro finite element is used to gain computational...
A parametric finite element model (FEM) of three-dimensional five-directional (3D5d) braided composi...
The mechanical behaviour and progressive damage of twodimensional plain woven carbon-epoxy fabrics i...
cited By 4International audienceAmong the possible forming processes for structural composite parts,...
© 2019 The Authors In numerical simulations of reinforcement preforming, fabrics are often modelled ...
Since the 1940s, fiber reinforced polymer (FRP) composites have revolutionized aerospace technologie...
Mesoscale Finite Element (FE) modelling methods of woven and braided composites have attracted great...
Meso-scale finite element method (FEM) is considered as the most effective and economical numerical ...
In this paper, we propose a novel simulation framework for accurately predicting the mechanical resp...
Braided textile-reinforced composites have become increasingly attractive as protection materials th...
Composite materials have brought new development and sizing possibilities for structural components ...
Meso-scale (unit cell of an impregnated textile reinforcement) finite element (FE) modelling of text...
Periodic unit-cells are the premises for applying the periodic boundary conditions in the meso-scale...
In many engineering applications, 3D braided composites are designed for primary loading-bearing str...
International audienceThe textile composite studied is a 3D woven composite. A unit cell is defined ...
Global/local method in conjunction with a special macro finite element is used to gain computational...
A parametric finite element model (FEM) of three-dimensional five-directional (3D5d) braided composi...
The mechanical behaviour and progressive damage of twodimensional plain woven carbon-epoxy fabrics i...
cited By 4International audienceAmong the possible forming processes for structural composite parts,...
© 2019 The Authors In numerical simulations of reinforcement preforming, fabrics are often modelled ...
Since the 1940s, fiber reinforced polymer (FRP) composites have revolutionized aerospace technologie...
Mesoscale Finite Element (FE) modelling methods of woven and braided composites have attracted great...