EXPERIMENTAL STUDY OF OVERCUT IN ELECTROCHEMICAL MICROMACHINING FOR 304 STAINLESS STEEL

机译：304不锈钢电化学微加工覆膜现象的实验研究。

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This paper presents an electrochemical micromachining (EMM) system developed with a inter electrode gap control. Preliminary experiments have been conducted to identify the parameters and their range for EMM of 304 stainless steel (SS). The effect of machining voltage, pulse on-time, machining current, and electrolyte concentration on overcut was investigated. The range / level for the different parameters that yielded minimum overcut were identified for further investigation and optimization. Taguchi experimental design technique has been applied to determine the optimal combination of the machining parameters levels. According to the Taguchi's quality design concepts, an L_(16) orthogonal array was used. The optimal combinations of machining parameters levels for minimum overcut were determined as machining voltage at 12 V, pulse on-time at 25 ms, machining

机译：本文介绍了一种采用电极间间隙控制技术开发的电化学微加工（EMM）系统。已经进行了初步实验，以确定304不锈钢（SS）的EMM参数及其范围。研究了加工电压，脉冲接通时间，加工电流和电解液浓度对过切的影响。确定产生最小超限的不同参数的范围/水平，以供进一步研究和优化。田口实验设计技术已应用于确定加工参数水平的最佳组合。根据田口的质量设计理念，使用了L_（16）正交阵列。确定最小过切的加工参数水平的最佳组合为：12 V的加工电压，25 ms的脉冲接通时间，加工

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来源
《38th North American manufacturing research conference》|2010年|p.253-260|共8页
会议地点 Kingston(CA);Kingston(CA)
作者
R Thanigaivelan; RM Arunachalam;
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作者单位

Mechanical Engineering Department Muthayammal Engineering College Rasipuram, Tamilnadu India;

Mechanical Engineering Department Sona College of Technology Salem, Tamilnadu India;

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会议组织
原文格式 PDF
正文语种 eng
中图分类机械制造工艺;
关键词
Overcut; Stainless steel; Electrochemical micromachining (EMM); Electrolyte; Taguchi technique;

机译：超切不锈钢;电化学微加工（EMM）；电解质;田口技术;

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专利

1. Experimental Study on the Influence of Tool Electrode Tip Shape on Electrochemical Micromachining of 304 Stainless Steel [J] . R. Thanigaivelana* amp, RM. Arunachalamb Materials and Manufacturing Processes . 2010,第10期

机译：工具电极头形状对304不锈钢电化学微加工影响的实验研究
2. Experimental Study on the Influence of Tool Electrode Tip Shape on Electrochemical Micromachining of 304 Stainless Steel [J] . R. Thanigaivelan, RM. Arunachalam Materials and Manufacturing Processes . 2010,第10a12期

机译：工具电极头形状对304不锈钢电化学微加工影响的实验研究
3. Numerical simulation and experimental study on laser micromachining of 304L stainless steel in ambient air [J] . Li Ninghui, Li Zewen, Kang Min, International Journal of Heat and Mass Transfer . 2019,第SEPa期

机译：大气中304L不锈钢激光微加工的数值模拟与实验研究
4. EXPERIMENTAL STUDY OF OVERCUT IN ELECTROCHEMICAL MICROMACHINING FOR 304 STAINLESS STEEL [C] . R Thanigaivelan, RM Arunachalam North American Manufacturing Research Institution of theSociety of Manufacturing Engineers Conference . 2010

机译：304不锈钢电化学微机械电化学中的过度的实验研究
5. An Experimental Investigation into the Effects of Laser Powder Bed Fusion and Heat-treatments on the Microstructure and Mechanical Properties of 304l Stainless Steel and Nickel and Cobalt-base Superalloys [D] . Ferreri, Nicholas C. 2019

机译：激光粉末融合和热处理对304L不锈钢和钴基高温合金微观结构和机械性能的实验研究
6. Preliminary Study on Fluidized Bed Chemical Mechanical Polishing (FB-CMP) Process for Stainless Steel 304 (SS304) [O] . Taekyoung Kim, Hyunseop Lee 2020

机译：不锈钢304（SS304）流化床化学机械抛光（FB-CMP）工艺初步研究（SS304）
7. Experimental investigation of MRR, surface roughness and overcut of AISI 304 stainless steel in EDM [O] . Poddar Ayush 2012

机译：电火花加工中AISI 304不锈钢的MRR，表面粗糙度和超切的实验研究
8. Comparison of Predicted Versus Experimentally-Determined Stresses for Crack Initiation of Surface Flaws in a 304 Stainless Steel and a Ferritic Steel [R] . Reuter, W. G., Place, T. A. 1983

机译：304不锈钢和铁素体钢表面缺陷裂纹萌生的预测与实验确定应力的比较

EXPERIMENTAL STUDY OF OVERCUT IN ELECTROCHEMICAL MICROMACHINING FOR 304 STAINLESS STEEL

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