Study of the Effect of Electric Field Distribution to the Pulse Electrochemical Machining

Zhao Long Li; Shi Chun Di; Dong Bo Wei; Peng Xiang Lv

doi:10.4028/www.scientific.net/AMR.291-294.3073

Paper Titles

Research on Reusable and Sharing Manufacturing Resource Based on Command Intelligent Multi-Agent
p.3056

Modeling and Optimization of Mould Non-Sinusoidal Oscillation Process
p.3060

A New Approach to Precision Cropping with Radial Forging
p.3064

Manufacture Probe with EDM Single Pulse Discharge Research
p.3069

Study of the Effect of Electric Field Distribution to the Pulse Electrochemical Machining
p.3073

The Vibration Analysis and Modal Experimental Study of High Speed Motorized Spindle
p.3078

Cutting Performance of Cemented Carbide-Based Self-Lubricating Tool Embedded with CaF₂ Solid Lubricants
p.3083

Progress on Investigation of Pores During Selective Laser Melting of Metal Powders and Future Work Discussion
p.3088

A Fast Method for Analyzing the Effect of Mask Error on Photolithography Pattern Quality
p.3097

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 291-294Study of the Effect of Electric Field Distribution...

Study of the Effect of Electric Field Distribution to the Pulse Electrochemical Machining

Abstract:

This paper studies the electrochemical machining on the surface of nickel-based alloys with a tubular electrode and analyses the effect of electric field distribution and current distribution to the shape of concave holes during the processing. It is concluded that the maximum distance between the positive and negative poles in the reaction of electrochemical machining. It is analyzed that order of electrochemical machining surface holes in the direction of hole radius and hole depth and the variation laws of reaction speed.

You might also be interested in these eBooks

Materials Processing Technology, AEMT2011

View Preview

Info:

Periodical:

Advanced Materials Research (Volumes 291-294)

Pages:

3073-3077

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.291-294.3073

Citation:

Cite this paper

Online since:

July 2011

Authors:

Zhao Long Li, Shi Chun Di, Dong Bo Wei, Peng Xiang Lv

Keywords:

Electric Field Distribution, Electrochemical Machining (ECM), Machining Gap, Reaction Speed

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] Wa Jianye,Xu Jiawen. Electrochemical Machining Technique. Beijing: national defence industrial press,2001. IN CHINESE

Google Scholar

[2] WU Gaoyang, Zhang Zhijing, Tang Xinglun,Wang Zhifang. The influence of frequency to the inter-electrode gap in high frequency group pulse electrochemical machining. Manufacturing Automation.2006.8.19-21. IN CHINESE

Google Scholar

[3] Yu Yanqing, Wang Jianye, Han Guanjun.Rasearch on the Industrialization Power Supply for MOSFET High Frequency Short Pulse Electrochemical Machining[J]. Electro machining & Mould.2005.2. 59-63. IN CHINESE

Google Scholar

[4] Shi Xianchuan, Zhu Di, Xu Huiyu. Gap Monitor and Control in Electrochemical Machining[J]. MECHAN ICAL SCIENCE AND TECHNOLOGY.5 (2005),pp.536-539. IN CHINESE

Google Scholar

[5] Qian Mi, Xu Jiawen.The mass transfer in electrochemical machining gap and the influence on electrochemical machining. Machinery[J].Deign & Manufacture.2006.4.93-96. IN CHINESE

Google Scholar

[6] Rajurkar K P, et al. New development in electrochemical machining[J]. Anna ls of the C IRP, 1999, 48 (2) : 569～579 9. Yu CY, Liu CS, Huang YH, Hsu YC (1982) .The investigation of the flow characteristics of the gap in the pulse electrochemical machining (PECM) [J]. CIRP Ann 31/1:119–123

DOI: 10.1016/s0007-8506(07)63281-8

Google Scholar

[7] Kock M , Kirchnerm V , Schuster R. Elect -rochemical micromachining with ultro short voltage pluses—aversatile method with lithographical precision [J]. Electrochemical Acta, 2003, 48 (20222) : 321323219.

DOI: 10.1016/s0013-4686(03)00374-8

Google Scholar

[8] Zaytsev A , A gafonov I, Gimaev V , et al. Precise pulse electrochemical machining by bipo lar current: A spects of effective technological application [J].Journal of Materials Processing Techno logy, 2004,149 (123) : 4192425.

DOI: 10.1016/s0924-0136(04)00190-6

Google Scholar

[10] Rajurkar KP, Wei B, Kozak J (1995) Modelling and monitoring interelectrode gap in pulse electrochemical machining[J]. CIRP Ann 44:177–180

DOI: 10.1016/s0007-8506(07)62301-4

Google Scholar

[11] Wei B, Rajurkar KP, Talpallikar S (1997) Identification of interelectrode gap in pulse electrochemical machining[J]. J Electrochem Soc 144(11):3613–3619 Nov

DOI: 10.1149/1.1838110

Google Scholar