Determining the Mechanical Properties of Various Types of Flax Fibre Cloths
Universiteit Antwerpen
2024
In recent years, interest in the use of ecological materials in the production of fibre-reinforced composites has increased enormously. This study investigates if the mechanical properties of different types of flax fibre cloth could act as a substitute for carbon fibre in composite materials. The study focuses on nine different flax fibre cloths, each with different weight classes and different patterns, combined with bio-epoxy resin to create fiber reinforced composites. The study compares the mechanical properties, such as tensile strength and elongation of these flax-based composites. The results indicate that flax fibre composites achieve similar strengths to carbon fibres composites, but due to the fact that they require more layers resulting in greater thickness and weight, their applications are limited, especially in weight-sensitive areas. Unidirectional (UD) flax fibres exhibit the highest tensile strength of all flax fibres tested. In addition, the research shows that the importance of the proper fibre-epoxy ratio is huge, variations in epoxy content will affect the mechanical properties enormously. Bio-epoxy resin, which contains up to 34% biodegradable material, is a good substitute for traditional epoxies. The only difference of bio epoxy is the fact that it is more ductile. Overall, the research highlights the potential applications of flax fibre as a sustainable alternative to synthetic fibres, like carbon or glass fibre.
Meer lezen