Experimental Investigation of Dispersion Effect of TiCP on Mechanical and Tribological Behaviour on LM25 Aluminum-Fly Ash Hybrid Composites

IF 0.6 4区材料科学 Q4 METALLURGY & METALLURGICAL ENGINEERING

Russian Journal of Non-Ferrous Metals Pub Date : 2025-04-11 DOI:10.1134/S106782122460090X

S. Sundaraselvan, K. Rajkumar, S. Sathish, B. Marxim Rahula Bharathi

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引用次数: 0

Abstract

The aim of this study is to investigate the mechanical and tribological behaviours of aluminum hybrid composites (AHMCs) reinforced with particles of fly ash and titanium carbide (TiC) adopting the stir casting route. The aluminum matrix (LM25) was reinforced with a constant 5% fly ash and varying proportions of TiC (4, 8, and 12%) to evaluate the dispersion effect of added reinforcements on the fabricated AHMCs. Mechanical properties of tensile strength, hardness, and tribological properties were determined to evaluate the TiC-dispersed AHMCs. The outcomes of experimentation show that inclusion of the reinforcement particle of TiC particle enhances both the mechanical strength and hardness at 42.1 and 50.9% and reduction of wear and COF at 27.2 and 43.7%, respectively, for the fabricated AHMCs, which makes them a suitable material for lightweight applications in aerospace, automotive, and marine sectors. The tribo analysis shows that a significant amount of dispersed TiC makes a strong tribo layer on the contact surface, reducing the abrasive effect of the counter surface.

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TiCP对LM25铝-粉煤灰杂化复合材料力学和摩擦学性能影响的实验研究

本研究旨在探讨采用搅拌铸造工艺，用粉煤灰和碳化钛（TiC）颗粒增强铝混合复合材料（AHMC）的机械和摩擦学行为。在铝基体（LM25）中添加固定比例为 5%的粉煤灰和不同比例的碳化钛（4%、8% 和 12%），以评估添加的增强剂对制成的 AHMC 的分散效果。通过测定拉伸强度、硬度和摩擦学性能等机械性能，对分散了 TiC 的 AHMC 进行了评估。实验结果表明，加入 TiC 增强粒子后，所制造的 AHMCs 的机械强度和硬度分别提高了 42.1% 和 50.9%，磨损和 COF 分别降低了 27.2% 和 43.7%，使其成为航空航天、汽车和船舶领域轻质应用的合适材料。三波分析表明，大量分散的 TiC 在接触面上形成了坚固的三波层，降低了反面的磨损效应。

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来源期刊

Russian Journal of Non-Ferrous Metals METALLURGY & METALLURGICAL ENGINEERING-

CiteScore

1.90

自引率

12.50%

发文量

审稿时长

3 months

期刊介绍： Russian Journal of Non-Ferrous Metals is a journal the main goal of which is to achieve new knowledge in the following topics: extraction metallurgy, hydro- and pirometallurgy, casting, plastic deformation, metallography and heat treatment, powder metallurgy and composites, self-propagating high-temperature synthesis, surface engineering and advanced protected coatings, environments, and energy capacity in non-ferrous metallurgy.