Plant fiber-reinforced polymer composites: a review on modification, fabrication, properties, and applications

Reducing energy consumption and minimizing environmental impacts have been significant factors in expanding the applicability of plant fiber-reinforced composites across a variety of industries. Plant fibers have major advantages over synthetic fibers, including biodegradability, light weight, low cost, non-abrasiveness, and acceptable mechanical properties. However, the inherent plant fiber properties, such as varying fiber quality, low mechanical properties, moisture content, poor impact strengths, a lack of integration with hydrophobic polymer matrices, and a natural tendency to agglomerate, have posed challenges to the development and application of plant fiber composites. Emphasis is being placed on overcoming this limitation to improve the performance of plant fiber composites and their applications. This study reviews plant fiber-reinforced composites, focusing on strategies and breakthroughs for improving plant fiber composite performance, such as fiber modification, fabrication, properties, biopolymers, and their composites with industrial applications like automotive, construction, ballistic, textiles, and others. Furthermore, Pearson rank correlation coefficients were used in this review to assess the relationship between the chemical composition of plant fibers with their physical and mechanical properties. If researchers study the behavior of plant fibers using correlation coefficients, it will be easier to combine plant fibers with a polymer matrix to develop a new sustainable material. Through this review study, researchers will learn more about the strategic value of these materials and how well they work in different real-world situations.