A tubular composite structure that is built of two materials, characterized by different Young moduli, is analysed in this paper. The Young’s modulus of one of these materials can be controlled by external conditions e.g., magnetic or electric field, temperature etc. The geometry of the reinforcement is based on typical auxetic re-entrant honeycomb cellular structure. The influence of this external factor on the behaviour of the stretched tube is analysed in this paper. Also, the possibility of creating a tubular composite structure whose cross-section is either shrinking or expanding, while stretching the tube is presented
Auxetic materials are a class of materials that expand transversely when stretched longitudinally. ...
International audienceIn this work, the influence of a compliant hyperelastic polymeric phase infilt...
Fillers can improve the tensile performance of ductile tubes. Mechanical analyses of tensile tubes w...
A tubular composite structure that is built of two materials, characterized by different Young modul...
Auxetic materials are a class of materials that expand transversely when stretched longitudinally. R...
Cet article présente une méthode de calcul des structures composites fibres-résine appliquée aux cas...
Due to the character of the original source materials and the nature of batch digitization, quality ...
Auxetic materials exhibit a unique characteristics when subjected to uniaxial loading. Various struc...
A procedure to design a composite tube that matches the flexural stiffness, load-carrying capacity, ...
Tubular reinforcing elements for composites were made by infiltrating molten aluminum alloy into the...
This paper analyses the issues relative to the modelling of tubular (cylindrical) composite structur...
Auxetic materials exhibit a unique characteristic due to the altered microstructure. Different struc...
This work is part of the development of the IVth generation of nuclear reactors. It relates more pre...
In this study, the deformation and energy absorption characteristics of a novel hybrid tube is inves...
A significant reinforcement effect has always been expected from the use of carbon nanotubes (CNT). ...
Auxetic materials are a class of materials that expand transversely when stretched longitudinally. ...
International audienceIn this work, the influence of a compliant hyperelastic polymeric phase infilt...
Fillers can improve the tensile performance of ductile tubes. Mechanical analyses of tensile tubes w...
A tubular composite structure that is built of two materials, characterized by different Young modul...
Auxetic materials are a class of materials that expand transversely when stretched longitudinally. R...
Cet article présente une méthode de calcul des structures composites fibres-résine appliquée aux cas...
Due to the character of the original source materials and the nature of batch digitization, quality ...
Auxetic materials exhibit a unique characteristics when subjected to uniaxial loading. Various struc...
A procedure to design a composite tube that matches the flexural stiffness, load-carrying capacity, ...
Tubular reinforcing elements for composites were made by infiltrating molten aluminum alloy into the...
This paper analyses the issues relative to the modelling of tubular (cylindrical) composite structur...
Auxetic materials exhibit a unique characteristic due to the altered microstructure. Different struc...
This work is part of the development of the IVth generation of nuclear reactors. It relates more pre...
In this study, the deformation and energy absorption characteristics of a novel hybrid tube is inves...
A significant reinforcement effect has always been expected from the use of carbon nanotubes (CNT). ...
Auxetic materials are a class of materials that expand transversely when stretched longitudinally. ...
International audienceIn this work, the influence of a compliant hyperelastic polymeric phase infilt...
Fillers can improve the tensile performance of ductile tubes. Mechanical analyses of tensile tubes w...