Add to ORKGCombining high performance polyethylene (HP-PE) and carbon fibres as reinforcing elements in so-called hybrid composite structures results in a unique class of structural materials possessing high damping and impact resistance. Mechanical properties of unidirectional HP-PE/carbon-epoxy hybrids have been studied, emphasizing basic mechanical characterization such as tensile, compressive and shear strength, initial as well as long-term modulus, vibrational damping and impact response. This paper describes the influence of overall composition and adhesion level of the HP-PE fibres on the mechanical properties of such hybrids
This study addresses the effects of basalt fibre hybridization on quasi-static mechanical properties...
Carbon fibres and Kevlar fibres are among the commonly used fibres in the composite industry. As car...
In this work the mechanical properties of composites specimens made of thermosetting and thermoplast...
Combining high performance polyethylene (HP-PE) and carbon fibres as reinforcing elements in so-call...
The mechanical properties of high-performance polyethylene (HP-PE) and carbon fibres are to some ext...
composites based on polyethylene and carbon fibres Part 2: influence of composition and adhesion lev...
The tensile and fatigue behaviour of unidirectional carbon-high-performance polyethylene/epoxy hybri...
The tensile and fatigue behaviour of unidirectional carbon-high-performance polyethylene/epoxy hybri...
The impact response and failure mechanisms of ultrahigh modulus polyethylene (UHMPE) fiber composite...
Hybridization of inherently brittle carbon fibers with basalt fibers in the fiber reinforced plastic...
The crush performance of tubes from epoxy resin composite with intermingled high-performance polyeth...
This study investigartes the effect of hybridization of high-perfornamce polyethylene (HP-PE) fibres...
A series of hybrid fiber-reinforced composites were prepared with polyimide fiber and carbon fiber a...
Hybrid composite materials are more attracted by the engineers because of their properties like stif...
This study addresses the effects of basalt fibre hybridization on quasi-static mechanical properties...
Carbon fibres and Kevlar fibres are among the commonly used fibres in the composite industry. As car...
In this work the mechanical properties of composites specimens made of thermosetting and thermoplast...
Combining high performance polyethylene (HP-PE) and carbon fibres as reinforcing elements in so-call...
The mechanical properties of high-performance polyethylene (HP-PE) and carbon fibres are to some ext...
composites based on polyethylene and carbon fibres Part 2: influence of composition and adhesion lev...
The tensile and fatigue behaviour of unidirectional carbon-high-performance polyethylene/epoxy hybri...
The tensile and fatigue behaviour of unidirectional carbon-high-performance polyethylene/epoxy hybri...
The impact response and failure mechanisms of ultrahigh modulus polyethylene (UHMPE) fiber composite...
Hybridization of inherently brittle carbon fibers with basalt fibers in the fiber reinforced plastic...
The crush performance of tubes from epoxy resin composite with intermingled high-performance polyeth...
This study investigartes the effect of hybridization of high-perfornamce polyethylene (HP-PE) fibres...
A series of hybrid fiber-reinforced composites were prepared with polyimide fiber and carbon fiber a...
Hybrid composite materials are more attracted by the engineers because of their properties like stif...
This study addresses the effects of basalt fibre hybridization on quasi-static mechanical properties...
Carbon fibres and Kevlar fibres are among the commonly used fibres in the composite industry. As car...
In this work the mechanical properties of composites specimens made of thermosetting and thermoplast...