Experimental Investigations on Eco-Friendly Helium-Mist Near-Dry Wire-Cut EDM of M2-HSS Material

Recent Advancements in Geotechnical Engineering Pub Date : 2021-08-15 DOI:10.21741/9781644901618-22

D. Velmurugan, T. Yuvaraj, V. Raguraman, B. Sampath, M. Sureshkumar

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引用次数: 8

Abstract

Abstract. In this paper, helium-assisted near-dry wire-cut electrical discharge machining (NDWEDM) method molybdenum wire has been used to reduce the environmental impact and to cut M2-HSS material. The pressurized non-reacting helium gas mixed with a small amount of water (Helium-mist) is used as the dielectric fluid to accomplish adequate cooling and flush-out debris. The new experimental setup has been developed to conduct the near-dry WEDM tests using the L9 orthogonal array of the Taguchi technique. The input parameters such as voltage (V), pulse-width (PW), pulse-interval (PI), and flow rate (F) of mixing water and output variables are the material removal rate (MRR) and surface roughness (Ra). It was observed that MRR and Ra are amplified by the rise in voltage and pulse-width, and flow rate conversely, the pulse interval minimizes the responses. The percentage of contribution of pulse width, voltage, pulse interval and flow rate are 24.06%, 32.98%, 12.75% and 30.21% on MRR and 20.94%, 22.22%, 47.86% and 8.97% on Ra respectively. Finally, the confirmation trials have been accomplished to validate the foreseen best parameter sets on optimal responses.

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环保氦雾近干电火花线切割M2-HSS材料实验研究

摘要本文采用氦辅助近干线切割电火花加工(NDWEDM)方法对钼丝进行加工，以减少对环境的影响，并对M2-HSS材料进行切削。加压的不反应氦气与少量水(氦雾)混合用作介电流体，以完成充分的冷却和冲洗碎屑。利用田口法的L9正交阵列，建立了一套新的实验装置，进行近干电火花线切割试验。输入参数为混合水的电压(V)、脉宽(PW)、脉冲间隔(PI)和流速(F)，输出变量为材料去除率(MRR)和表面粗糙度(Ra)。结果表明，随着电压和脉宽的增加，MRR和Ra会被放大，而脉宽的增加则会使MRR和Ra的响应最小化。脉宽、电压、脉冲间隔和流量对MRR的贡献率分别为24.06%、32.98%、12.75%和30.21%，对Ra的贡献率分别为20.94%、22.22%、47.86%和8.97%。最后，完成了验证试验，以验证预测的最佳参数集对最优响应的影响。

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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Recent Advancements in Geotechnical Engineering

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