Natural/synthetic fiber reinforced hybrid composites on their mechanical behaviors– a review
Hybrid composites are increasingly being used due to their exceptional performance in many applications. Hybrid composites use reinforcement to enhance the qualities of the composites. Fiber plays a crucial role in composites, and when hybrid fiber composites are created, it leads to improved qualities and environmental benefits. This review of research elucidated the process of combining fiber-reinforced composites and examined their impact on their mechanical characteristics. The flexural modulus increases linearly as the quantity of natural fiber in increases up to 30 weight%. Flexural strength and modulus of natural with 30% bamboo fiber are 22% and 21.6% higher, respectively, than those of pure PP lattice, respectively. The tensile strength of the glass fiber stacking increased as the weight% of the fiber increased from 0 to 8.2%, 16.5%, and 25.2% of the total fiber weight of 42%. Elasticity increased by 9.6%, 37%, and 54.56% in the twist bearing and 54.3%, 91.4%, and 148.3% in the weft course. The combination of natural and synthetic fiber always produce better results for past decays results with better applications in all the fields.
Premnath, K., Arunprasath, K., Sanjeevi, R., Elilvanan, R., & Ramesh, M. (2024). Natural/synthetic fiber reinforced hybrid composites on their mechanical behaviors– a review. Interactions, 245, 1-18.