切削刃几何形状对 316L 奥氏体钢加工性的影响

M. Grabowski, Marcin Małek, Reza Teimouri, S. Skoczypiec
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摘要

本文重点讨论了在高速铣削 316L 不锈钢时选择正确刀具几何形状的问题。制备了两种螺旋角配置(1 号刀具为 40/42 度,2 号刀具为 35/38 度)、不同切削刃半径 r n(即 4 µm、6 µm、8 µm、10 µm 和 12 µm)的硬质合金铣刀,并分析了它们对切削力和粗糙度的影响。结果表明,切削刃半径 r n 的微小变化都会对切削力和表面粗糙度产生显著影响。然而,在使用不同的刀具螺旋角时,增加切削刃半径对粗糙度的影响也不同。对于 1 号刀具,研究发现,当切削刃半径从 6 μm 增加到 12 μm 时,表面粗糙度会增加;而在使用 2 号刀具加工的样品中,切削刃半径的增加会导致粗糙度降低。研究还发现,无论切削刃半径的值如何,使用 1 号刀具时的切削力都略小于 2 号刀具。此外,使用 2 号刀具加工的样品的诱导铣削表面粗糙度明显低于 1 号刀具,Ra 的平均值从 2.55 µm 降至 0.35 µm。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effect of Cutting-Edge Geometry on the Machinability of 316L Austenitic Steel
The paper focuses on the problem of selecting the correct tool geometry in high-speed milling of 316L stainless steel. Carbide milling cutters with two configurations of helix angle (40/42 degrees for tool#1 and 35/38 degrees for tool#2) with different cutting edge radiuses r n (i.e. 4 µm, 6 µm, 8 µm, 10 µm and 12 µm) were prepared and their impact on cutting force and roughness were analyzed. The obtained results revealed that the small changes in cutting edge radius r n have a significant effect on both cutting forces and surface roughness.In this context, irrespective to the type of the tool, increasing the cutting edge radius results in further cutting force. However, increasing the cutting edge radius shows different behavior on roughness while using different tool helix angles. For the tool#1, it was found that the surface roughness increases by increasing the cutting edge radius from 6 μm to 12 μm; while in the samples machined by tool #2, increase in cutting edge radius results in reduction of rough - ness. It was also found that irrespective to the values of cutting edge radius, the cutting force while using tool #1 is slightly less than the tool#2. In addition, the induced milling surface roughness of the samples machined by tool#2 is significantly less than the tool#1 where the mean value of Ra was reduced from 2.55 µm to 0.35 µm.
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