Tribological properties of Hot forged Al2024-TiB2 in-situ composite

International Journal of Advanced Materials Manufacturing and Characterization Pub Date : 2014-08-10 DOI:10.11127/IJAMMC.2014.08.02

R. Keshavamurthy

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引用次数: 12

Abstract

A B S T R A C T Al2024-TiB2 in-situ composite was fabricated by liquid metallurgy route using Al-Titanium and Al-Boron master alloys. The developed composites were subjected to hot forging at a temperature of 500oC using a 200T hydraulic hammer. Microstructure studies, X-ray diffraction studies(XRD), grain size analysis, microhardness and dry friction and wear tests were carried out on as cast and hot forged matrix alloy and its composites. Pin on disc type machine was employed to perform friction and wear tests over a load range of 20-100N and sliding velocities of 0.314-1.57m/s. Microstructure and XRD studies reveal presence of fine TiB2 particles in both as cast and hot forged condition. It is observed that, both as cast and hot forged composites do exhibit significant grain refinement. When compared with as cast matrix alloy and its composite, hot forged alloy and its composite exhibits higher extent of grain refinement. Both as cast and hot forged composites exhibit improved microhardness, wear resistance and lower coefficient of friction when compared with the unreinforced alloy under identical test conditions.

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热锻Al2024-TiB2原位复合材料的摩擦学性能

以al -钛和al -硼中间合金为基体，采用液相冶金法制备了Al2024-TiB2原位复合材料。采用200T液压锤在500℃温度下进行热锻。对铸态和热锻态基体合金及其复合材料进行了显微组织研究、x射线衍射(XRD)、晶粒尺寸分析、显微硬度和干摩擦磨损试验。采用销盘式试验机，在20-100N的载荷范围内，在0.314-1.57m/s的滑动速度下进行摩擦磨损试验。显微组织和XRD研究表明，在铸态和热锻态均存在细小的TiB2颗粒。结果表明，无论是铸造复合材料还是热锻复合材料，均表现出明显的晶粒细化。与铸基合金及其复合材料相比，热锻合金及其复合材料的晶粒细化程度更高。在相同的试验条件下，与未增强合金相比，铸态和热锻态复合材料的显微硬度、耐磨性和摩擦系数都有所提高。

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International Journal of Advanced Materials Manufacturing and Characterization

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