探讨机械化学效应在醇类切削铝合金中的作用

T. Sugihara, Takuma Nomura, T. Enomoto, A. Udupa, K. Viswanathan, J. Mann
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引用次数: 0

摘要

在金属切削过程中,切削区的化学环境可以成为过程控制和过程性能改进的有用变量。在这项工作中,我们研究了机械化学效应如何影响切屑形成过程,特别是关注铝合金和醇之间的特定化学反应作为模型系统。利用高速原位成像和颗粒图像测速技术,我们证明了使用异丙醇(IPA)切削退火铝的机械化学效应以两种不同的方式表现出来:刀具-切屑界面的润滑效应和工件自由表面的脆化效应,这取决于未变形的切屑厚度和切削速度。因此,由于Al- ipa反应,在干式切削退火铝中看到的高度不稳定的切屑流动(通常在切削韧性“粘性”金属中看到)转变为层流型(光滑)切屑流动模式或分段的断裂控制切屑流动。在这两种情况下,改进的切屑流动模式导致切削力的显著降低和成品表面质量的改善。发现机械化学效应的具体表现主要取决于醇类对刀屑界面的渗透能力和铝与醇类发生化学反应所需的时间。此外,我们讨论了一些影响,以提高实际铝切割操作的性能使用醇作为流体介质。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Exploring the Role of Mechanochemical Effects in Cutting of Aluminum Alloys With Alcohols
In metal cutting processes, a chemical ambient environment in the cutting zone can be a useful variable for process control and process performance improvement. In this work, we study how mechanochemical effects influence the chip formation process, especially focusing on a specific chemical reaction between aluminum alloys and alcohols as a model system. Using high speed in-situ imaging and particle image velocimetry, we demonstrate that the mechanochemical effect in cutting of annealed Al with use of isopropyl alcohol (IPA) is manifest in two different ways: a lubricating effect at the tool-chip interface and an embrittlement effect at the workpiece free-surface, depending on the undeformed chip thickness and cutting speed. Consequently, the highly unsteady chip flow seen in dry cutting of annealed Al, which is typically seen in cutting of ductile “gummy” metals, transitions to a laminar-type (smooth) chip-flow mode or a segmented, fracture-controlled chip flow, due to the Al-IPA reaction. In both cases, the modified chip flow modes lead to significant reduction in cutting forces and improvement of finished surface quality. The specific manifestation of the mechanochemical effect is found to be principally determined by the penetration capability of the alcohols into the tool-chip interface and the time required for the chemical reaction between aluminum and the alcohols. Also, we discuss some implications for improving the performance of practical Al cutting operations using alcohols as a fluid medium.
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