Flexural Mechanical Characterization of Polyester Composites Reinforced with Continuous Banana Fibers

"Fibers extracted from the ramie plant have been traditionally used in textile and are now being considered as polymeric composite reinforcement owing to their superior strength. Recently the mechanical behavior of ramie fiber reinforced polyester composites was investigated but no significant improvement was found. Therefore, the objective of this work was to carry out a similar investigation by changing the type of polymeric matrix. Specimens with up to 30% in volume of ramie fibers incorporated into epoxy were bend-tested until fracture. The results showed a moderate improvement with a tendency of decreasing stress for higher amounts of ramie fibers due to the weak interface developed with the epoxy matrix.IntroductionThe engineering application of natural fibers extracted from cellulose-containing vegetables, also recognized as lignocellulosic fibers, is presently considered an environmentally correct alternative to replace more expensive, non recyclable and energy-intensive synthetic fibers [1-3]. In fact, composites reinforced with traditional fibers such as coconut, sisal, jute, hemp, etc ... are already on the market in substitution for common glass fiber automobile components [4-6]. Even less known fibers like curaua from the Amazon region are being industrially used [7]. Economical and environmental reasons sustain a promising future trend for natural fiber composites. In comparison with the less expensive glass fiber among energy-intensive synthetics, lignocellulosic fibers are approximately five times cheaper. For the current situation of our planet, natural fibers are regarded as ""green"" environmentally friendly materials. They are abundant, renewable, biodegradable, and recyclable, above all, neutral with respect to carbon dioxide emission, associated with global warming.Several relatively unknown lignocellulosic fibers such as piassava [8], sponge gourd [9], sugar cane bagasse [10], buriti [11] and ramie [12], with simple and limited applications, or just byproducts, are now being investigated for their potential as composite reinforcement. This could widen the offer of new lignocellulosic fibers for composite reinforcement. The banana fiber, in particular, has a tensile strength around 700 MPa [13], which is comparable to the strongest lignocellulosic fibers used as composite reinforcement.In addition to polyester, the epoxy is another relatively strong polymer used as composite matrix. Therefore, the objective of the present work was to assess the mechanical properties obtained by flexural test, for epoxy composites reinforced with different amounts of banana fibers."