Effect of alkali treatment on mechanical and water absorption properties of biodegradable wheat-straw/glass fiber reinforced epoxy hybrid composites: A sustainable alternative for conventional materials

• Published in: Heliyon Vol. 10; no. 16; p. e35910
• Main Authors: Shifa, Silvina Siddika, Kanok, Md Mehedi Hasan, Haque, Mohammad Salman
• Format: Journal Article
• Language: English
• Published: England Elsevier Ltd 30.08.2024; Elsevier
• Subjects: Alkali treatment; Biodegradable wheat straw fiber; Epoxy resin and hardener; Glass fiber; Mechanical and physical properties; SEM image analysis; Water absorption; Mechanical and physical properties; Biodegradable wheat straw fiber; Epoxy resin and hardener; SEM image analysis; Water absorption; Glass fiber; Alkali treatment
• ISSN: 2405-8440; 2405-8440
• DOI: 10.1016/j.heliyon.2024.e35910

Fiber-reinforced polymer composites are preferred over conventional materials because of their superior strength and modulus. Previously limited due to high manufacturing costs, synthetic fibers have been replaced by some natural fibers, such as waste wheat straw fibers. Here, epoxy-based polymer composites' mechanical and physical properties have been investigated, focusing on fiber weight ratios for both treated and untreated fiber. The research found that treated fibers display more effective mechanical qualities than untreated fibers, with a higher tensile strength of 54.4 MPa. The untreated Wheat Straw-Glass fiber reinforced composite has a less tensile strength of 26.3 MPa (10 wt% fiber). Pure resin-based composite has the most minor tensile strength at 1.52 MPa. The highest flexural strength obtained for hybrid composite is 88.76 MPa for treated fiber with epoxy resin and 49.6 MPa for untreated 30 wt % fiber. At the same time, the sole epoxy resin composite has the lowest value of 10.60 MPa. Untreated fiber (30 wt%) has the highest impact energy of 8J. Untreated wheat straw fiber absorbs more water due to its hydrophilic nature. In contrast, treated fiber exhibits better bonding and minimal water content, and the sole epoxy resin composite exhibits hydrophobic properties, resulting in less water absorption. The treated fiber displays better bonding than the untreated fiber throughout the SEM analysis. Wheat Straw fiber is mainly used for biodegradable plastic formation, housing construction, building materials, etc.