Development of aluminum composite reinforced with selected agricultural residues

材料科学 去壳 金属间化合物 极限抗拉强度 复合数 复合材料 合金 铸造 微观结构 冶金 植物 生物
作者
L. Osunmakinde,T. B. Asafa,Philips O. Agboola,M. O. Durowoju
出处
期刊:Discover materials [Springer Nature]
卷期号:3 (1) 被引量:23
标识
DOI:10.1007/s43939-023-00069-z
摘要

Abstract The use of agricultural residue has been considered an economic and environmentally friendly approach for development of aluminium composites. In this study, Al powder (Al) was reinforced with coconut shell ash (CSA), rice husk ash (RHA), and cassava peel ash (CPA) for enhanced physicomechanical performance of the resulting composites. Five samples (A o –Al, A 1 –Al + 15RHA, A 2 –Al + 5CSA + 5RHA + 5CPA, A 3 –Al + 15CPA, and A 4 –Al + 15RHA) were prepared in a two-step stir-casting technique and characterized based on physical, mechanical and metallurgical properties. Microstructural analysis revealed that all the particles bonded well with the aluminum alloy. The densities of samples A 1 , A 2 , A 3, and A 4 reduced by 4.78%, 7.75%, 11.44%, and 14.76%, respectively compared to the control sample A o while porosities rose by 2.1%, 2.23%, 2.56%, and 2.98% respectively. Sample A 2 has the highest tensile strength (39.84 MPa) and hardness (120 HBR) which denote 33.60% and 64.27% enhancement compared to the unreinforced sample. These observations can be attributed to the presence of intermetallic compounds such as Fe 3 Si and Al 6 Fe present in the composites as well as uniformly distributed and strongly bounded reinforcement within the aluminum matrix. The composite made from the combination of the three reinforcements gave the best physicomechanical properties and therefore recommended for engineering applications.
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