Numerical methods have become increasingly effective tools for analysis and design of composite materials. This study investigates how the inclusion of geometrical variations in modelling 3D woven fabrics affects the accuracy of numerical predictions. Based on micro-Computed Tomography data of 3D orthogonal woven composites, unit cell models were generated in TexGen at different levels of geometrical detail. Two types of analysis were implemented: (a) computational fluid dynamics (CFD) simulates resin flow during fabric impregnation in composites processing to predict permeability; (b) implicit static finite element analysis predicts in-plane tensile strength of the composites. By comparison with experimental data, the numerical predictions...
3D weaving technology enables the manufacturing of advanced near net-shape profiles, through incorpo...
Mechanical behaviour of fibre reinforced polymer composites is geared by the geometrical structure o...
3D weaving technology enables the manufacturing of advanced near net-shape profiles, through incorpo...
Numerical methods have become increasingly effective tools for analysis and design of composite mate...
For a 3D orthogonal carbon fibre weave, geometrical parameters characterising the unit cell were qua...
For a 3D orthogonal carbon fibre weave, geometrical parameters characterising the unit cell were qua...
In order to accurately predict the performance of 3D woven composites, it is necessary that realisti...
In order to accurately predict the performance of 3D woven composites, it is necessary that realisti...
AbstractModelling the mechanical performance of textile composites is typically based on idealised u...
Numerical methods have become increasingly effective tools for the analysis and design of composite ...
A unit cell based Computational Fluid Dynamics model is presented for predicting permeability of mul...
Numerical prediction of woven composites mechanical properties has been a challenge since decades. A...
Technical textiles are increasingly being engineered and used in challenging applications, in areas ...
AbstractA unit cell based Computational Fluid Dynamics model is presented for predicting permeabilit...
AbstractModelling the mechanical performance of textile composites is typically based on idealised u...
3D weaving technology enables the manufacturing of advanced near net-shape profiles, through incorpo...
Mechanical behaviour of fibre reinforced polymer composites is geared by the geometrical structure o...
3D weaving technology enables the manufacturing of advanced near net-shape profiles, through incorpo...
Numerical methods have become increasingly effective tools for analysis and design of composite mate...
For a 3D orthogonal carbon fibre weave, geometrical parameters characterising the unit cell were qua...
For a 3D orthogonal carbon fibre weave, geometrical parameters characterising the unit cell were qua...
In order to accurately predict the performance of 3D woven composites, it is necessary that realisti...
In order to accurately predict the performance of 3D woven composites, it is necessary that realisti...
AbstractModelling the mechanical performance of textile composites is typically based on idealised u...
Numerical methods have become increasingly effective tools for the analysis and design of composite ...
A unit cell based Computational Fluid Dynamics model is presented for predicting permeability of mul...
Numerical prediction of woven composites mechanical properties has been a challenge since decades. A...
Technical textiles are increasingly being engineered and used in challenging applications, in areas ...
AbstractA unit cell based Computational Fluid Dynamics model is presented for predicting permeabilit...
AbstractModelling the mechanical performance of textile composites is typically based on idealised u...
3D weaving technology enables the manufacturing of advanced near net-shape profiles, through incorpo...
Mechanical behaviour of fibre reinforced polymer composites is geared by the geometrical structure o...
3D weaving technology enables the manufacturing of advanced near net-shape profiles, through incorpo...