挤压铸造铝基复合材料(5-10% TiB2)电火花加工中刀具磨损率的研究

IF 2.9 Q2 ELECTROCHEMISTRY Journal of Electrochemical Science and Engineering Pub Date : 2022-08-29 DOI:10.5599/jese.1391

Arvinder Singh Channi, H. Bains, J. S. Grewal, Vettivel Singaravel Chidambranathan, Ramanuj Kumar

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引用次数: 5

摘要

采用挤压铸造法制备了6061铝合金/二硼化钛(TiB2)，制备了具有不同TiB2含量的复合材料。研究了复合材料的金相组织、抗拉强度和硬度。当TiB2含量从5%增加到10%时，所制备的金属基复合材料的抗拉强度和硬度均有所提高。本研究采用电火花加工(EDM)来研究刀具磨损率(TWR)的输出响应。研究了电火花加工过程中的电流、脉冲导通时间和电压间隙等参数。实验采用Box-Behnken策略设计。采用统计学方法对实验进行分析。在TiB2浓度为5和10 vol.%的理想条件下，TWR分别为0.2146和0.1749 mm3 min-1，表面粗糙度分别为2.47和3.03µm。TiB2用于汽车盘式制动器，这是一个部件相互滑动的行业。铝合金-6061/二硼化钛作为生物材料具有广泛的应用前景。

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Investigation of Tool Wear Rate during EDM for Aluminium Metal Matrix Composite (5-10% TiB2) Prepared by Squeeze Casting

Squeeze casting was used to prepare aluminium alloy-6061/titanium diboride (TiB2) to create a composite with varied TiB2 quantities. The composite's metallographic structure, tensile strength, and hardness have been explored. The tensile strength and hardness of produced metal matrix composites increased when a particle of TiB2 was increased from 5 to 10 vol.%. This study uses electrical discharge machining (EDM) to investigate the output response tool wear rate (TWR). Variables in EDM operation were investigated, such as current, pulse on time, and voltage gap. The experiments were designed using the Box–Behnken strategy. Statistical approaches were used to analyse the experiments. At ideal settings for TiB2 concentrations of 5 and 10 vol.%, TWR was 0.2146 and 0.1749 mm3 min-1 and surface roughness was 2.47 and 3.03 µm, respectively. TiB2 is utilized in automobile disc brakes, an industry where components slide against each other. The aluminium alloy-6061/titanium diboride has many applications as a biomaterial and is a good prospect.

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