Add to ORKGThe idea underlying the present study was to apply twisting in order to introduce different levels of transverse pressure. The modified structure affected both the bonding level and the evolution of the damage in the yarn. In order to isolate this effect in a broader context, additional parameters were included in the experiment design, namely effects of loading rate, specimen length and filament diameter (directly linked to the fineness of the yarn). These factors have been studied in various contexts by several authors. Some related studies on involved factors will be briefly reviewed
International audienceThree-dimensional (3D) fabrics of commingled yarns offer the possibility of a ...
Weft-knitted textiles made from high-strength fibrous materials offer great potential for use as a f...
Textile fabrics are highly anisotropic, so that their mechanical properties including strengths are ...
The idea underlying the present study was to apply twisting in order to introduce different levels o...
The paper proposes a method for characterizing the in-situ interaction between filaments in a multif...
High modulus/high strength continuous fibres are used extensively for manufacturing textile preforms...
Owing to twisting of filament fiber bundle, the structure and consequently various parameters and pr...
Textile reinforcement yarns consist of many filaments, which can slip relative each other. At modell...
The scope of the presented master thesis was the experimental study of multi-filament yarns made of ...
Textile Reinforced Concrete shows a complex load-bearing behaviour, which depends on material proper...
The true structural potential of plant fibres as reinforcing agents can only be realized when the hi...
International audienceThe study of the interaction between multi-filament yarn and cementitious matr...
This thesis describes a new model of the behaviour of staple fibre yarns under longitudinal extensio...
The paper presents a meso-scopic modeling framework for the simulation of three-phase composite cons...
Technical textiles play a highly important role in today's material engineering. In fibrous composit...
International audienceThree-dimensional (3D) fabrics of commingled yarns offer the possibility of a ...
Weft-knitted textiles made from high-strength fibrous materials offer great potential for use as a f...
Textile fabrics are highly anisotropic, so that their mechanical properties including strengths are ...
The idea underlying the present study was to apply twisting in order to introduce different levels o...
The paper proposes a method for characterizing the in-situ interaction between filaments in a multif...
High modulus/high strength continuous fibres are used extensively for manufacturing textile preforms...
Owing to twisting of filament fiber bundle, the structure and consequently various parameters and pr...
Textile reinforcement yarns consist of many filaments, which can slip relative each other. At modell...
The scope of the presented master thesis was the experimental study of multi-filament yarns made of ...
Textile Reinforced Concrete shows a complex load-bearing behaviour, which depends on material proper...
The true structural potential of plant fibres as reinforcing agents can only be realized when the hi...
International audienceThe study of the interaction between multi-filament yarn and cementitious matr...
This thesis describes a new model of the behaviour of staple fibre yarns under longitudinal extensio...
The paper presents a meso-scopic modeling framework for the simulation of three-phase composite cons...
Technical textiles play a highly important role in today's material engineering. In fibrous composit...
International audienceThree-dimensional (3D) fabrics of commingled yarns offer the possibility of a ...
Weft-knitted textiles made from high-strength fibrous materials offer great potential for use as a f...
Textile fabrics are highly anisotropic, so that their mechanical properties including strengths are ...