Performance Evaluation of Electrode Materials in Electric Discharge Deep Hole Drilling of Inconel 718 Superalloy

机译：Inconel 718超合金电放电深孔钻孔电极材料的性能评价

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In the present study, electric discharge deep hole drilling of Inconel 718 was experimented with three different commercial tube electrodes viz., copper, copper-tungsten and graphite. The pertinent process parameters selected for the study were peak current, pulse on-time, duty factor and electrode rotational speed. The machining performance was investigated by analysing Material Removal Rate (MRR), Electrode Wear Ratio (EWR) and Surface Roughness (SR). The experiments were planned according to Response Surface Method (RSM) and Central Composite Design (CCD). Through holes of diameter around 3.0 mm and 25 mm depth were drilled. Experimental data was fitted and regression analysis was done. The experimental results indicated that copper electrode outperformed copper-tungsten and graphite electrodes with regard to MRR and SR. Further, the EWR was high in copper electrode followed by copper-tungsten and graphite electrodes. Among the three electrode materials tested, copper is the best choice of electrode material with respect to high MRR and low SR.

机译：在本研究中，使用三种不同的商用管电极VIZ来试验Inconel 718的放电深孔钻孔。，铜，铜钨和石墨。选择用于研究的相关工艺参数是峰值电流，脉冲导通时间，占空比和电极转速。通过分析材料去除速率（MRR），电极磨损比（EWR）和表面粗糙度（SR）来研究加工性能。根据响应面法（RSM）和中央复合设计（CCD）进行规划。钻出直径约3.0mm和25mm深度的孔。安装了实验数据并完成了回归分析。实验结果表明，关于MRR和Sr的铜电极优于铜 - 钨和石墨电极。此外，EWR在铜电极中高于铜 - 钨和石墨电极。在测试的三个电极材料中，铜是相对于高MRR和低Sr的电极材料的最佳选择。

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《Global Congress on Manufacturing and Management》|2017年|710 p.|共7页
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P Kuppan; S Narayanan; R Oyyaravelu;
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中图分类机械制造工艺;
关键词
EDM; Deep; hole; drilling; Inconel; 718; copper; copper; tungsten; graphite; material; removal; rate; electrode; wear; ratio; surface; roughness;

机译：EDM;深;钻孔;钻孔;inconel;718;铜;铜;钨;石墨;材料;拆除;速率;电极;磨损;比率;表面;粗糙度;

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1. 田口-灰关联法应用于Inconel718微放电铣削参数最佳化 [J] . 林茂用, 曾中丞, 许春耀, 中国有色金属学报（英文版） . 2013,第003期
2. 田口-灰关联法应用于Inconel 718微放电铣削参数最佳化（英文） [J] . 林茂用, 曹中丞, 许春耀, 中国有色金属学报：英文版 . 2013,第003期
3. Experimental investigations into electrical discharge deep hole drilling of Inconel 718 using copper-tungsten electrode [J] . P. Kuppan, S. Narayanan, A. Rajadurai International Journal of Mechatronics and Manufacturing Systems . 2012,第5a6期

机译：铜钨电极对Inconel 718放电深孔的实验研究
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5. Effect of process parameters on material removal rate and surface roughness in electric discharge drilling of Inconel 718 using graphite electrode [J] . P. Kuppan, S. Narayanan, A. Rajadurai International Journal of Manufacturing Technology and Management . 2011,第3a4期

机译：工艺参数对Inconel 718石墨电极放电钻孔中材料去除率和表面粗糙度的影响
6. Performance Evaluation of Electrode Materials in Electric Discharge Deep Hole Drilling of Inconel 718 Superalloy [C] . P Kuppan, S Narayanan, R Oyyaravelu Global Congress on Manufacturing and Management . 2017

机译：Inconel 718超合金电放电深孔钻孔电极材料的性能评价
7. Macrostructure and Mechanical Behavior of Inconel 718 Superalloy Fabricated by a Blown Powder Laser Deposition Additive Manufacturing Process [D] . Hill, Chris. 2018

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Performance Evaluation of Electrode Materials in Electric Discharge Deep Hole Drilling of Inconel 718 Superalloy

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