Experimental Research on Performance of Electrochemical Machining Process on Hard Material (Carbon Steel EN9) and Soft Material (Copper)

Ankit Panchal; Amit Patel; S. Sheth; Anand Joshi

doi:10.4028/www.scientific.net/AMM.704.48

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Experimental Research on Performance of Electrochemical Machining Process on Hard Material (Carbon Steel EN9) and Soft Material (Copper)
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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 704Experimental Research on Performance of...

Experimental Research on Performance of Electrochemical Machining Process on Hard Material (Carbon Steel EN9) and Soft Material (Copper)

Abstract:

Electrochemical Machining is one of established non-traditional machining process which is widely used in micro machining parts. Purpose of this research paper is to investigate effect of Electrochemical Machining under low voltage and relatively high current rating on concentrated or masked work piece of Copper and Carbon Steel EN9. Developing Machine set up with the help of PLC and SCADA device for Accurate Positioning and reliable data supervising which includes ECM, basic working principle of ECM, selection and development of components, implementation and to analyze the effect of change in the parameters of the process. Selection and development part will cover design of frame, fixture, pump, filter, tool, electrolyte, and work piece material as a mechanical part, selection of electric drive system and PLC. PLC programming and hardware circuit as electrical and programming part.

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Periodical:

Applied Mechanics and Materials (Volume 704)

Pages:

48-57

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.704.48

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Online since:

December 2014

Authors:

Ankit Panchal*, Amit Patel, S. Sheth, Anand Joshi

Keywords:

Electrochemical Machining, Material Removal Rate (MRR), Non-Traditional Machining Process, PLC Based Automation

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References

[1] J. A. McGEOUGH: Principle of Electrochemical Machining (Chapman and Hall – London & New York 1988), pp.55-87.

Google Scholar

[2] Newman. J. S.: Electrochemical Systems (Prentice-Hall, London, 1972).

Google Scholar

[3] R. S. KHURMI: Machine Design (Eurasia Public House (Pvt. ) Ltd, Edition 2005).

Google Scholar

[4] L. M. Terry: Industrial Electronics, Devices, Systems and Application (2005).

Google Scholar

[5] V. B. Bhandari: Introduction to Machine Design (Tata McGraw Hill, Edition 2005).

Google Scholar

[6] S R Majumdar: Oil Hydraulics Systems-Principles and Maintenance (Tata McGraw Hill publishing Co., 2002).

Google Scholar

[7] Mechatronics (HMT Ltd) (Tata McGraw Hill 1998).

Google Scholar

[8] International Journal of Advanced Scientific and technical research Issue 2, Vol. 1 (2012). ISSN 2249-9954.

Google Scholar

[9] Information on http: /www. soton. ac. uk/~rmc1/robotics/artactile. htm.

Google Scholar

[10] Information on http: /zone. ni. com/devzone/cda/tut/p/id/3960#toc0.

Google Scholar

[11] International journal of advanced scientific and technical research, Issue 2 , Vol. 1, ISSN 2249-9954.

Google Scholar

[12] International Journal of Modeling and Optimization, Vol. 1, No. 2, (2011).

Google Scholar

[13] Bhattacharyya, A., Sur, B., and Sorkhel, S. K.: Analysis of optimum parametric combination in electro- chemical machining. Ann. CIRP, 22(1973), P59–60.

Google Scholar

[14] Choobineh, F. and Jain, V. K.: A fuzzy sets approach for selecting optimum parameters of an ECM process. Processing of Adv. Mater., 3(1993), p.225–232.

Google Scholar

[15] V.K. Jain: Advanced Machining Processes (Allied Publishers, New Delhi 2002).

Google Scholar

[16] McGeough, J.: Theory of Electrochemical Machining (2005).

Google Scholar

[17] M. Datta, R. V. Shenoy, and L. T. Romankiw: Recent advances in the study of electrochemical micromachining, " ASME J. Eng. Ind., (1996), p.118, p.29–36.

DOI: 10.1115/1.2803644

Google Scholar