Turning machinability of short alumina fiber reinforced aluminum alloy composites

2015 International Conference on Solar Energy and Building (ICSoEB) Pub Date : 2015-09-10 DOI:10.1109/ICSOEB.2015.7244939

K. Asano

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引用次数: 1

Abstract

Fiber-reinforced aluminum alloy composites were fabricated by squeeze casting, and the effects of the fiber reinforcement on the machinability of the alloy were investigated. Al-Si-Cu-Ni-Mg alloy was used as the matrix metal, and two kinds of short alumina fibers were used as the reinforcements. The cutting force values of the alloy were reduced by the fiber reinforcement under every cutting condition. The lower the hardness of the fiber in the composite was, the lower the cutting force of the composite was. The roughness of the machined surface decreased by the fiber reinforcement. This result and the in situ observation of cutting process revealed that the fibers in the composite suppress the formation of the built-up edge. The observation of chip forms indicated that the fibers in the composite facilitated the shear deformation of the chips because the fibers were easily sheared by the cutting. Continuous chips were formed after cutting the unreinforced alloy, while serrated chips were formed after cutting the composites. The lower the hardness of the fiber in the composite was, the lower the tool wear was.

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短氧化铝纤维增强铝合金复合材料的车削可加工性

采用挤压铸造法制备了纤维增强铝合金复合材料，研究了纤维增强对铝合金可加工性的影响。采用Al-Si-Cu-Ni-Mg合金作为基体金属，两种短氧化铝纤维作为增强材料。在各种切削条件下，纤维增强均降低了合金的切削力值。复合材料中纤维的硬度越低，复合材料的切削力越小。纤维增强降低了加工表面的粗糙度。这一结果和切削过程的现场观察表明，复合材料中的纤维抑制了堆积边的形成。对切屑形态的观察表明，复合材料中的纤维容易被剪切，从而促进了切屑的剪切变形。未增强合金切削后形成连续切屑，复合材料切削后形成锯齿状切屑。复合材料中纤维的硬度越低，刀具磨损越小。

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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2015 International Conference on Solar Energy and Building (ICSoEB)

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