ASSESSMENT OF TRIBOLOGICAL PROPERTIES OF STIR CAST Al6063 ALLOY REINFORCED WITH OKABA COAL ASH

IF 1.1 Q3 METALLURGY & METALLURGICAL ENGINEERING
J. Odusote, A. A. Adeleke, P. Ikubanni, Samuel Adeiza, Qudus Badrudeen, Olalekan Ogunniyi, T. Ogedengbe
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Abstract

Composite are multi-phase materials made up of matrix and reinforcement. This paper assesses the tribological property of Al6063 alloy (AMCs) reinforced with Okaba coal ash (OCA) using the stir casting method. By using a constant speed of 1000 rpm and two different loads (250 g and 750 g) on Taber wear apparatus, the tribological properties of the produced composite are contrasted with those of an unreinforced Al6063 alloy. The results show a reduction in wear index and the highest abrasion resistance at 4 wt.% coal ash at 500 g and 1000 rpm, as well as at 0, 2, and 6 wt.% with 8.688, 5.878, and 5.813 at 500g and 8.688, 5.878, 4.125, and 5.813 at 750g, respectively. Therefore, for all composite products compared to metal, there is an increase in abrasion resistance with a decrease in wear index, but this decreases when the load is increased to 750g, showing that the higher the load, the higher the wear index, which results in a reduction in abrasion resistance. Load is taken into greater consideration when using the AMCs manufactured in engineering applications. Additionally, SEM images revealed uniform distribution of the OCA reinforcement in the matrix alloy; thereby, improving its wear resistance.
冈叶粉煤灰增强搅拌铸造Al6063合金摩擦学性能的评价
复合材料是由基体和增强材料组成的多相材料。采用搅拌铸造法对冈巴粉煤灰增强Al6063合金的摩擦学性能进行了评价。通过在Taber磨损装置上使用1000rpm的恒定速度和两种不同的载荷(250g和750g),将所制备的复合材料的摩擦学性能与未增强Al6063合金的摩擦学性能进行了对比。结果表明,在500g和1000rpm下,在4wt.%的煤灰下,以及在0、2和6wt.%时,磨损指数降低,耐磨性最高,分别为8.688、5.878和5.813,在750g下分别为8.68、5.878、4.125和5.813。因此,与金属相比,对于所有复合材料产品,耐磨性随着磨损指数的降低而增加,但当负载增加到750g时,耐磨性降低,这表明负载越高,磨损指数越高,这导致耐磨性降低。在使用工程应用中制造的AMC时,应更多地考虑荷载。此外,SEM图像显示OCA增强剂在基体合金中均匀分布;从而提高其耐磨性。
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来源期刊
Acta Metallurgica Slovaca
Acta Metallurgica Slovaca METALLURGY & METALLURGICAL ENGINEERING-
CiteScore
2.00
自引率
30.00%
发文量
22
审稿时长
12 weeks
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