Add to ORKGThe deformability of a composite reinforcement depends mainly on its internal structure and has a relevant influence on the quality of a composite component. Among the mechanical features of a composite reinforcement, the biaxial behavior plays an important role on its capability to drape a complex shape. This chapter details some of the methodologies employed to measure and to predict the tensile biaxial behavior of textile composite reinforcements. The features of some experimental biaxial loading devices are described, as well as some experimental results. A predictive analytical model for plain weave reinforcements is briefly described and compared to experimental data. Finally, the main characteristics of numerical models dedicated to ...
In textile industry, besides the conventional textile products, technical textile goods, that have b...
Mechanical behaviour of fibre reinforced polymer composites is geared by the geometrical structure o...
This model is able to rapidly predict the biaxial tensile moduli and strengths of plain weave fabric...
The deformability of a composite reinforcement depends mainly on its internal structure and has a re...
The deformability of acomposite reinforcement depends onitsinternal structure and has a relevant inf...
When a component is produced from textile reinforcement, it is well known that the reinforcement con...
Engineering textile composites are built of a polymeric resin matrix reinforced by a woven fabric, c...
Woven fibrous textiles as reinforcement of composite materials have received considerable attention ...
This paper presents a new micromechanical model to predict biaxial tensile moduli of plain weave fab...
The study deals with the mechanical behaviour of a glass plain weave composite reinforcement. The ex...
The biaxial properties of plain weave fabric composites are important as they are more representativ...
The knowledge of mechanical behaviour of woven performs under uniaxial/biaxial tensile loads is nece...
This paper presents a novel experimental approach to determine the biaxial strength of fabrics. A do...
Continuous textile reinforcements hold crucial role when composites are employed as load bearing com...
International audienceAn approach to the mechanical behaviour of textile composites at the scale of ...
In textile industry, besides the conventional textile products, technical textile goods, that have b...
Mechanical behaviour of fibre reinforced polymer composites is geared by the geometrical structure o...
This model is able to rapidly predict the biaxial tensile moduli and strengths of plain weave fabric...
The deformability of a composite reinforcement depends mainly on its internal structure and has a re...
The deformability of acomposite reinforcement depends onitsinternal structure and has a relevant inf...
When a component is produced from textile reinforcement, it is well known that the reinforcement con...
Engineering textile composites are built of a polymeric resin matrix reinforced by a woven fabric, c...
Woven fibrous textiles as reinforcement of composite materials have received considerable attention ...
This paper presents a new micromechanical model to predict biaxial tensile moduli of plain weave fab...
The study deals with the mechanical behaviour of a glass plain weave composite reinforcement. The ex...
The biaxial properties of plain weave fabric composites are important as they are more representativ...
The knowledge of mechanical behaviour of woven performs under uniaxial/biaxial tensile loads is nece...
This paper presents a novel experimental approach to determine the biaxial strength of fabrics. A do...
Continuous textile reinforcements hold crucial role when composites are employed as load bearing com...
International audienceAn approach to the mechanical behaviour of textile composites at the scale of ...
In textile industry, besides the conventional textile products, technical textile goods, that have b...
Mechanical behaviour of fibre reinforced polymer composites is geared by the geometrical structure o...
This model is able to rapidly predict the biaxial tensile moduli and strengths of plain weave fabric...