Intermittent machining of hardened steels with different types of PcBN cutting tools

IF 1.2 Q3 ENGINEERING, MECHANICAL
Manokhin Sergiyovych, Klymenko Anatoliyovych, Melniychuk Oleksiyovich, Klymenko Anatoliyovych, Pasichnyi Olegovich, Xin Li, Kateryna Kamchatnaya-Stepanova, Osipov Sergiyovich
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引用次数: 0

Abstract

The paper discusses the results of the experimental investigation of the performance of several grades of PcBN cutting composites in conditions of the interrupted machining of hardened steel. Both BH and BL types of PcBN indexable inserts with additions of Si3N4, TiC, and TiCN were tested, and cutting speed varied to assess the possibility of applying these cutting tools in different conditions. It has been shown that BL PcBN can be utilized for turning with shock loads in case of high cutting speed and low depth of cut (0,2 mm). While in the range of comparatively low cutting speeds BL cutting tools are actually inoperable, and because of microchipping of polycrystalline fragments and brittle destruction of the cutting edge, an increase of the cutting speed to 210 m/min changes wear pattern and formation of the wear land. As well as this, measurement of the form and values of the cutting forces impulses revealed the effect of their peak growth by up to 40%. The danger of shock impulses was analyzed by FEM modeling, and it was demonstrated that during impacts, the maximal value of the third Principal stress exceeds the average level of compressive stresses during continuous cutting by 1.6 times, which can cause damage to the cutting tool. The data on the estimation of tool fracture probability depending on loading conditions are presented, and the possibility of reducing such probability is shown.
用不同类型的PcBN刀具间歇加工淬硬钢
本文讨论了几种PcBN切削复合材料在淬火钢中断加工条件下的性能试验研究结果。对添加了Si3N4、TiC和TiCN的BH型和BL型PcBN可转位刀片进行了测试,并改变了切削速度,以评估这些刀具在不同条件下应用的可能性。研究表明,在高切削速度和低切削深度(0.2 mm)的情况下,BL PcBN可以用于冲击载荷下的车削。而在较低的切削速度范围内,BL刀具实际上是不可操作的,并且由于多晶碎片的微切屑和切削刃的脆性破坏,将切削速度提高到210 m/min会改变磨损模式和磨损地的形成。此外,对切削力脉冲的形式和值的测量揭示了其峰值增长高达40%的影响。通过有限元模拟分析了冲击脉冲的危险性,结果表明,在冲击过程中,第三主应力最大值超过连续切削过程中压应力平均值的1.6倍,对刀具造成损伤。给出了刀具断裂概率随载荷条件变化的估计数据,并给出了降低刀具断裂概率的可能性。
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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来源期刊
FME Transactions
FME Transactions ENGINEERING, MECHANICAL-
CiteScore
3.60
自引率
31.20%
发文量
24
审稿时长
12 weeks
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