Add to ORKGNumerical methods have become increasingly effective tools for the analysis and design of composite materials. This study investigates how the inclusion of geometrical variations in 3D woven fabric modelling affects the accuracy of numerical predictions
The rising demand in inflatable structures gives rise to the need to accurately predict the non-line...
AbstractModelling the mechanical performance of textile composites is typically based on idealised u...
AbstractModelling the mechanical performance of textile composites is typically based on idealised u...
Numerical methods have become increasingly effective tools for analysis and design of composite mate...
Numerical methods have become increasingly effective tools for analysis and design of composite mate...
The 3D woven fabrics have superior mechanical behaviours thanks to their extraordinary structural de...
The 3D woven fabrics have superior mechanical behaviours thanks to their extraordinary structural de...
International audienceMany different methods can be used to obtain a composite part. Among them, sev...
The vast research area of modelling of 3D woven fabrics can be subdivided in several domains, each o...
Numerical prediction of woven composites mechanical properties has been a challenge since decades. A...
Geometrical modelling of 3D woven composites represents a key part in both material and component de...
International audienceTextile composites offer an excellent alternative to metallic alloys in the ae...
A finite element procedure is developed for the computation of the thermoelastic properties of texti...
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...
The rising demand in inflatable structures gives rise to the need to accurately predict the non-line...
AbstractModelling the mechanical performance of textile composites is typically based on idealised u...
AbstractModelling the mechanical performance of textile composites is typically based on idealised u...
Numerical methods have become increasingly effective tools for analysis and design of composite mate...
Numerical methods have become increasingly effective tools for analysis and design of composite mate...
The 3D woven fabrics have superior mechanical behaviours thanks to their extraordinary structural de...
The 3D woven fabrics have superior mechanical behaviours thanks to their extraordinary structural de...
International audienceMany different methods can be used to obtain a composite part. Among them, sev...
The vast research area of modelling of 3D woven fabrics can be subdivided in several domains, each o...
Numerical prediction of woven composites mechanical properties has been a challenge since decades. A...
Geometrical modelling of 3D woven composites represents a key part in both material and component de...
International audienceTextile composites offer an excellent alternative to metallic alloys in the ae...
A finite element procedure is developed for the computation of the thermoelastic properties of texti...
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...
The rising demand in inflatable structures gives rise to the need to accurately predict the non-line...
AbstractModelling the mechanical performance of textile composites is typically based on idealised u...
AbstractModelling the mechanical performance of textile composites is typically based on idealised u...