Litcius/Paper detail

Mechanical Properties and Microstructure of Ramie Fiber-Reinforced Natural Rubber Composites

Ajith Kuriakose Mani, Aju Zachariah Mani, Abin Varghese Jacob, Anantha Krishnan, Alen Shibu Paul, Akash V. Krishnan, Sivasubramanian Palanisamy, Sathiyalingam Kannaiyan, Song‐Jeng Huang

2025Journal of Composites Science7 citationsDOIOpen Access PDF

Abstract

The pressing issue of global warming has prompted industries to seek sustainable and renewable materials that can reduce the use of petroleum-based products. Natural fibers, as bio-based and environmentally friendly materials, offer a promising solution. In this study, ramie fiber, which is one of the strongest natural fibers, is used as reinforcement, and the mechanical properties of natural rubber composites are evaluated. The composites were fabricated using a vulcanizing technique at 150 °C, and the fibers were cut into different lengths (5 mm, 10 m, and 15 mm) and weights (15 g, 30 g, and 60 g). Mechanical performance tests, including tensile and tear strength and hardness, were conducted. The results showed that as fiber concentration increased, so did the curing time. Moreover, the composites with higher fiber concentration had higher strength. The composite with a 10 mm fiber length and 60 g weight showed the highest tensile strength (10.35 MPa). Maximum tear strength (52.51 kN/m) was achieved with 5 mm fiber length and 60 g weight. Hardness values reached up to 88 Shore A (10 mm fiber length and 60 g weight), indicating excellent wear resistance. The specimen with the highest tensile strength was subjected to scanning electron microscope analysis. The SEM analysis revealed that the composite had a ductile type of fracture with appreciable plastic deformation, confirming good fiber–matrix interaction. These findings underscore the potential of ramie fiber–reinforced natural rubber composites as sustainable, high-performance alternatives to petroleum-based materials in structural and vibration-damping applications.

Topics & Concepts

RamieComposite materialMaterials scienceMicrostructureNatural rubberFiberNatural fiberNatural Fiber Reinforced CompositesPolymer Nanocomposites and PropertiesMechanical Engineering and Vibrations Research