Continuous fibre composites with a nanocomposite matrix: Improvement of flexural and compressive strength at elevated temperatures

Abstract

Polymer layered silicate nanocomposites can improve the flexural and compressive strength of continuous fibre reinforced composites by means of increasing the matrix modulus. A three-phase thermoplastic composite consisting of a main reinforcing phase of woven glass fibres and a polyamide 6 (PA6) nanocomposite matrix was fabricated. Flexural testing of a conventional PA6 fibre composite has shown a decrease of the flexural strength upon increasing temperature. This behaviour is associated with the decrease of the matrix modulus, especially above T g . The nanocomposite used in this study has a modulus that is much higher than unfilled PA6, even above T g and after moisture conditioning. The results showed that the fibre composites with a nanocomposite matrix have a more than 40% increased flexural and compressive strength at elevated temperatures. This also means that the temperature at which the materials can be used is increased by 40–50 °C. Therefore, by using a nanocomposite matrix the high temperature performance of fibre composites can be improved without any change in processing conditions. The combination with other advantages of nanocomposites in areas such as barrier properties, flammability and creep makes this a very attractive approach.