Influence of Abrasive Grain Protrusion on High-Quality Machining of Cemented Carbide Using PCD Ball End Mills

IF 0.9 Q4 AUTOMATION & CONTROL SYSTEMS International Journal of Automation Technology Pub Date : 2024-03-05 DOI:10.20965/ijat.2024.p0225
Kazutoshi Katahira, Shinya Morita
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Abstract

In this study, cemented carbide was machined to a high quality using polycrystalline diamond (PCD) ball end mills characterized by various surface textures. The effect of the surface texture of the tools on the machining characteristics was studied using two types of PCD tools featuring abrasive diamond grains at various protrusion heights. In addition, a single crystal diamond tool with the same shape as that of the PCD tool was fabricated, and the experiment was repeated to study the differences in machining characteristics. The polished PCD tool yielded a high-quality machined surface with an average surface roughness of 1 nm. The polished PCD tool yielded superior sample surface roughness compared to the PCD tool for feed rates of 10–500 mm/min. The use of a polished PCD tool enables the efficient elimination of material through plastic flow, leading to the attainment of a high-quality machined surface while preventing the adhesion of materials on the tool surface. A single crystal diamond tool can also be used for machining cemented carbide within a feed rate range of 10–200 mm/min; however, its performance is inferior to that of a polished PCD tool. Experiments confirmed that the polished PCD tool was the most effective among the tested tools for the precision machining of cemented carbide.
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磨粒突出对使用 PCD 球头铣刀高质量加工硬质合金的影响
在这项研究中,使用具有不同表面纹理的聚晶金刚石 (PCD) 球头铣刀对硬质合金进行了高质量加工。研究使用了两种具有不同突出高度的金刚石磨粒的聚晶金刚石刀具,研究了刀具表面纹理对加工特性的影响。此外,还制作了与 PCD 工具形状相同的单晶金刚石工具,并重复实验以研究加工特性的差异。抛光 PCD 工具获得了高质量的加工表面,平均表面粗糙度为 1 nm。与 PCD 刀具相比,抛光 PCD 刀具在进给量为 10-500 mm/min 时的样品表面粗糙度更高。使用抛光 PCD 刀具可以通过塑性流动有效去除材料,从而获得高质量的加工表面,同时防止材料附着在刀具表面。单晶金刚石刀具也可用于加工硬质合金,进给速度范围为 10-200 mm/min,但其性能不如抛光 PCD 刀具。实验证实,抛光 PCD 刀具是测试刀具中最有效的硬质合金精密加工刀具。
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来源期刊
International Journal of Automation Technology
International Journal of Automation Technology AUTOMATION & CONTROL SYSTEMS-
CiteScore
2.10
自引率
36.40%
发文量
96
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