Influence of alkali treatment on coir-reinforced polyvinyl alcohol/polyethylene glycol blends

Abstract

The utilization of natural fibers in polymer biocomposites is on the rise owing to their ready availability, lightweight nature, excellent mechanical strength and eco-friendly characteristics. In this study, a solution casting method was performed to synthesize biodegradable composite films based on polyvinyl alcohol (PVA) with 10 to 30% polyethylene glycol loading (PEG, matrix) and 10% untreated or alkali treated coir fiber (reinforcement). SEM, FTIR, XRD, mechanical properties and contact angle studies were used to examine how the alkaline treatment affected the structure and characteristics of the synthesized films. Alkali treatment on coir fiber removed hemicellulose, lignin, and pectin and significantly improved its crystalline nature from 38.3% to 69.5%, confirmed by the XRD test. Adding 10 wt% polyethylene glycol with alkali treated coir fibers attained the highest tensile strength which was 38.6% greater than untreated coir fiber and demonstrated the best reinforcing effects of treated coir on these biocomposite films. According to our research, coir fiber’s alkali treatment considerably enhances its ability to interact with polyvinyl alcohol polymer and polyethylene glycol polymer blends, making it possible to fabricate composite films with improved mechanical properties.