Microstructure, Microhardness and Machining Characteristics of Al6063-SiC Composites

Materials Processing & Manufacturing eJournal Pub Date : 2019-12-20 DOI:10.2139/ssrn.3671806

R. Lam, Yogesh Venkatesan, S. Irullappasamy, T. K. Mahanta, R. Dumpala, R. B.

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Abstract

Machining of materials is an important operation in the manufacturing industry to develop different structures. Compared with metals and alloys, metal matrix composites (MMCs) respond differently during machining due to the presence of different phases possessing different physical and mechanical properties. In the present study, machining behavior of Al6063-SiC composites has been investigated to assess the role of dispersing phase on machining characteristics. Composites with varying SiC content (4% and 8% by Wt.) were produced by stir casting. From the micro structural studies, decreased grain size was observed with increased SiC dispersion. Higher hardness was measured for the composite with 4% SiC. From the machining studies during turning experiments, the variations within the cutting forces was found to be higher for the composites compared with the base material. Cutting forces were also measured as increased with the increase of SiC dispersion. From the results, it can be understood that the presence of SiC significantly influence the machining behavior of Al6063-SiC composites which is a valid factor must be considered while performing turning operations.

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Al6063-SiC复合材料的显微组织、显微硬度及加工特性

材料的加工是制造工业中发展不同结构的一项重要操作。与金属和合金相比，金属基复合材料在加工过程中的反应是不同的，因为不同相的存在具有不同的物理力学性能。在本研究中，研究了Al6063-SiC复合材料的加工行为，以评估分散相对加工特性的作用。采用搅拌铸造法制备了不同SiC含量(Wt = 4%和Wt = 8%)的复合材料。显微组织研究表明，SiC分散度增加，晶粒尺寸减小。含4% SiC的复合材料硬度较高。从车削试验的加工研究中，发现复合材料的切削力变化比母材大。切削力随SiC弥散度的增加而增大。结果表明，SiC的存在对Al6063-SiC复合材料的加工性能有显著影响，是车削加工时必须考虑的一个有效因素。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Materials Processing & Manufacturing eJournal

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