Journal of Natural Fibers (Aug 2023)
Experimental Study of Sugarcane Bagasse Fiber with Rice Husk and Wood Powder Polymer Matrix Composite
Abstract
This research examines the mechanical, morphological, and moisture assimilation of composite materials built up from sugarcane bagasse fiber (SBF), rice husk (RH), and wood powder (WP) filler. Regular threads are now regarded as eco-friendly materials because of their sustainability. This article’s goal is to choose between two polymer structures with fiber and matrix: case 1 has epoxy (50%) plus sugarcane bagasse fiber (30%–45%) and wooden powder (5%–20%); case 2 has epoxy (50%) plus sugarcane fiber (30%–45%) plus rice husk (5%–20%). The impact of the mechanical test is compared to obtaining the best fiber volume fraction (Vf), and the failure of cracked surfaces and interfacial bonding analysis is done using SEM as a consequence of matrix cracking, void content, and fiber pullout. In order to get the characterization of materials, Thermo-Gravimetric Analysis (TGA) and X-Ray Diffraction (XRD) analyses were also performed. However, Sugarcane Bagasse Fiber, a single fiber, combined with an epoxy composite matrix demonstrated a strength of 14 to 18 Mpa and 230 to 250 g of weight. Nevertheless, when SBF was combined with hybrid materials like Rice Husk and Wood Powder, it demonstrated superior strength, with an estimate of 16 to 20 Mpa and a weight of 220 to 240 g.
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