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creepDisease
Seven carbon and glass fibre reinforced plastics are investigated. Their quasistatic material properties are characterized by Young's and bending moduli and by tensile and flexural strengths. The time dependent properties are studied in creep and fatigue tests under normal laboratory as well as simulated physiological conditions. In addition the water absorption is also determined. With regard to structural differences, the suitability of these composites for the femoral stem component is discussed
This study presents the microstructural and mechanical behavior of the CF/PA12 composite material de...
The relationship between the structure and properties of very lightweight glasswool-phenolformaldehy...
This research concentrates on review of mechanical properties of polymeric composite materials in st...
Polymer-based composite materials are ideal for applications where high stiffness-to-weight and stre...
The development of fibre-reinforced composite (FRC) technology has led to substantial improvement in...
AbstractThe usage of high performance polymeric composites is a valuable alternative to conventional...
In recent decennium immense performing composites are favored over traditional materials like steel ...
Monotonic tensile tests were carried out on four types of composite materials, reinforced with polye...
In this work, nine types of laminated composite materials used for experimental study to investigate...
International audienceActive bending structures need materials with specific mechanical properties s...
Polymer-based composite materials are ideal for applications where high stiffness-to-weight and stre...
The mechanical properties and fracture mechanics of a series of short glass fibre reinforced and rub...
126 p. : ill. ; 30 cmThis research concerns the characterization of the mechanical behavior of compo...
In this study, an experimental comparison has been made between the traditional plastic materials (P...
This research work focuses on the material characterisation of pultruded fibre reinforced composites...
This study presents the microstructural and mechanical behavior of the CF/PA12 composite material de...
The relationship between the structure and properties of very lightweight glasswool-phenolformaldehy...
This research concentrates on review of mechanical properties of polymeric composite materials in st...
Polymer-based composite materials are ideal for applications where high stiffness-to-weight and stre...
The development of fibre-reinforced composite (FRC) technology has led to substantial improvement in...
AbstractThe usage of high performance polymeric composites is a valuable alternative to conventional...
In recent decennium immense performing composites are favored over traditional materials like steel ...
Monotonic tensile tests were carried out on four types of composite materials, reinforced with polye...
In this work, nine types of laminated composite materials used for experimental study to investigate...
International audienceActive bending structures need materials with specific mechanical properties s...
Polymer-based composite materials are ideal for applications where high stiffness-to-weight and stre...
The mechanical properties and fracture mechanics of a series of short glass fibre reinforced and rub...
126 p. : ill. ; 30 cmThis research concerns the characterization of the mechanical behavior of compo...
In this study, an experimental comparison has been made between the traditional plastic materials (P...
This research work focuses on the material characterisation of pultruded fibre reinforced composites...
This study presents the microstructural and mechanical behavior of the CF/PA12 composite material de...
The relationship between the structure and properties of very lightweight glasswool-phenolformaldehy...
This research concentrates on review of mechanical properties of polymeric composite materials in st...
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