脉冲条件对硬质合金双极脉冲电化学加工特性的影响

IF 0.9 Q4 AUTOMATION & CONTROL SYSTEMS
Tomohiro Koyano, Taisei Hokin, Tatsuaki Furumoto
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引用次数: 0

摘要

在单极和双极短脉冲电压下对两种不同成分的硬质合金进行了电化学加工,研究了成分和脉冲条件对加工特性的影响。在高钴和低碳化钨(WC)含量的硬质合金的情况下,即使使用单极电压,加工也会进行。这被认为是由于粘结剂,即Co的溶解,导致WC和wo3颗粒脱落。当使用双极电压时,加工比使用单极电压时更容易进行。这是由于有效地去除了wo3。在双极电压的作用下,加工表面的不均匀度也有所降低。负脉冲持续时间必须足够长,但要适当长,因为持续时间过长会增加工具电极的磨损。即使使用双极脉冲电压,类似于一般材料的加工,更短的正脉冲持续时间导致更精确的加工。然而,对于低Co和高WC含量的硬质合金,施加单极脉冲电压时,去除没有进展。另一方面,当施加双极电压时,加工进展。但是,如果正脉冲持续时间过长,则去除量减少。这被认为是因为较长的正脉冲持续时间增加了wo3的产生量,从而抑制了电流的流动。因此,有必要设置适当的正脉冲持续时间,以避免过量的wo3产生。
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 Pulse Conditions on Machining Characteristics in Bipolar-Pulse Electrochemical Machining of Cemented Carbide
Electrochemical machining was performed on two cemented carbides with different compositions using unipolar and bipolar short-pulse voltages to investigate the effects of the composition and pulse conditions on the machining characteristics. In the case of cemented carbides with high cobalt and low tungsten carbide (WC) contents, machining progressed even when a unipolar voltage was used. This is believed to be due to the dissolution of the binder, that is, Co, which causes the WC and WO 3 particles to drop out. Machining progressed more easily when a bipolar voltage was used than when a unipolar voltage was used. This is attributed to the effective removal of WO 3 . The unevenness of the machined surface was also reduced with bipolar voltage. The negative pulse duration had to be sufficiently but appropriately long, because too long a duration increased the wear of the tool electrode. Even when bipolar pulse voltages were used, similar to the machining of general materials, a shorter positive pulse duration resulted in more precise machining. However, in the case of cemented carbide with low Co and high WC contents, the removal did not progress when a unipolar pulse voltage was applied. On the other hand, the machining progressed when a bipolar voltage was applied. However, if the positive pulse duration was excessively long, the amount of removal decreased. This is believed to be because the longer positive pulse duration increased the amount of WO 3 generated, thereby inhibiting the current flow. Therefore, it is necessary to set an appropriate positive pulse duration to avoid the excessive production of WO 3 .
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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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