Frédérique Trivaudey scite author profile

Novel high-temperature thermoplastic polymers offer potential advantages over thermoset ones and represent a promising alternative in advanced composite applications. This work proposes to determine the thermal properties and resistance of unidirectional carbon fibre reinforced thermoplastic polyimide composite and to characterize the influence of temperature on its mechanical behaviour and properties, including tensile properties, interlaminar shear strength and failure mechanisms. Characterization is performed on composite tapes and on ring-shaped specimens manufactured using a heated-head thermoplastic filament winding process. Results show that the thermal degradation of such composite material occurs at temperature higher than 400°C. The glass transition temperature is approximately 250°C. The tensile strength is higher than 1200 MPa in the fibre direction on a temperature range varying from-50 to 250°C. The material has also an outstanding fatigue strength under tension in this material direction. At 200°C, the fatigue strength for a high number of cycles (2.10 6) is still approximately 50% of the static strength. One of the weak point of this composite laminate is the relatively low interlaminar shear strength at high temperature.

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Frédérique Trivaudey

Diameter dependence of the apparent tensile modulus of hemp fibres: A morphological, structural or ultrastructural effect?

About the thermomechanical behaviour of a carbon fibre reinforced high-temperature thermoplastic composite

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