Experimental Study on the Inner Wall Ring Groove of 1J116 Soft Magnetic Alloy Based on Electrochemical Machining

Bian Jianxiao, M. Baoji, Ai Haihong, Qi Lijun
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Abstract

In this study, electrochemical processing was introduced into the inner wall ring groove of 1J116 soft magnetic alloy to obtain higher processing precision. A single factor experimental study was carried out for the processing and forming laws and mechanisms. The effects of pulse voltage, duty cycle, pulse frequency, and electrolyte pressure on material removal rate and groove width and groove depth of the inner wall were analyzed. The results show that the effects of pulse voltage, duty cycle, pulse frequency and inlet pressure on the material removal rate are positively correlated. The groove width and groove depth of the inner wall ring groove increase with the increase of process parameters, in order to achieve higher The processing accuracy requires a reasonable range of process parameters. Keywords-Component; ECM; 1J116 Soft Magnetic Alloy; MRR; Inner Ring Groove
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基于电化学加工的1J116软磁合金内壁环槽试验研究
本研究将电化学加工引入1J116软磁合金内壁环槽,以获得更高的加工精度。对其加工成形规律和机理进行了单因素试验研究。分析了脉冲电压、占空比、脉冲频率和电解液压力对材料去除率、内壁槽宽和槽深的影响。结果表明,脉冲电压、占空比、脉冲频率和进口压力对材料去除率的影响呈正相关。内壁环槽的槽宽和槽深随着工艺参数的增加而增加,为了达到较高的加工精度,需要合理的工艺参数范围。Keywords-Component;ECM;1J116软磁合金;MRR;内环槽
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