Paweł Piórkowski, Wojciech Borkowski, M. Bartoszuk, E. Miko
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引用次数: 0
摘要
文章介绍了对 Inconel 718 合金进行高进给铣削和切入铣削过程中切削工具磨损情况的研究结果。研究中使用了一种特殊设计的铣头,使前面提到的两种铣削方法都能用一把刀具完成。研究使用了 CS300 和 CW100 型号的 CNGN120712 陶瓷刀片。在实验过程中,切削深度 a p [毫米]、切削宽度 a e [毫米]和每刃进给量 f z [毫米/刃]的值都发生了变化。研究是在加速磨损的条件下进行的。结果表明,通过三次多项式近似得到的刀具寿命周期内预计去除的材料体积参数 G max [cm 3],可以计算出单个试验中的刀具寿命。对于高进给铣削,刀具寿命周期内预计去除的材料体积 G max 介于 54 到 106 cm 3 之间,而对于切入式铣削,则介于 33 到 73 cm 3 之间。
Investigation of Cutting Tool Wear in the Milling Process of the Inconel 718 Alloy
The article presents the results of research on the wear of the cutting tool in the process of high feed milling and plunge milling of the Inconel 718 alloy. A specially designed milling head was used in the study, allowing both of the previously mentioned milling methods to be implemented with a single tool. Ceramic inserts CNGN120712 in versions CS300 and CW100 were used for the research. During the experiment, the values of cutting depth a p [mm], cutting width a e [mm] and feed per edge f z [mm/edge] were changed. The study was conducted under the conditions of accelerated wear. The results show the tool life in individual tests using the parameter of the material volume predicted to be removed in the tool life cycle G max [cm 3 ], obtained by third degree polynomial approximation. For milling with high feeds, the volume of material expected to be removed over the tool life cycle G max ranged from 54 to 106 cm 3 , whereas for plunge milling it ranged from 33 to 73 cm 3 .
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