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Research Article | Open Access

Investigating the effect of cryogenic treatment of workpieces and tools on electrical discharge machining performance

Vijaykumar S Jatti1( )Nitin K Khedkar2Vinaykumar S Jatti2Pawandeep Dhall3
Symbiosis Institute of Technology, Symbiosis International (Deemed University), Pune, India
Symbiosis Institute of Technology, Symbiosis International (Deemed University), Pune, India
Department of Mechanical Engineering (Robotics), University of California Berkeley, CA, USA
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Abstract

In this competitive world, manufacturers must embrace new technology in order to differentiate their products and capture market leadership. This can be achieved using advanced materials; however, these materials are difficult to machine by using traditional machining processes. A very viable and practical unconventional machining process is electrical discharge machining (EDM). EDM processes need proper selection of input parameters to get optimum productivity aspects, namely, the material removal rate and tool wear rate. Thus, the present study aims at investigating the effect of cryogenically treated work pieces and tools, gap currents, gap voltages, pulse on time and pulse off time on the material removal rate and tool wear rate during EDM of Nitinol (NiTi) alloy, Monel (NiCu) alloy and beryllium copper (BeCu) alloy. The experimental results showed that cryogenic treatment significantly improved the electrical conductivity of the workpieces and tool electrodes, which resulted in an enhanced material removal rate and reduced tool wear rate.

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AIMS Materials Science
Pages 835-862

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Cite this article:
Jatti VS, Khedkar NK, Jatti VS, et al. Investigating the effect of cryogenic treatment of workpieces and tools on electrical discharge machining performance. AIMS Materials Science, 2022, 9(6): 835-862. https://doi.org/10.3934/matersci.2022051

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Received: 28 May 2022
Revised: 16 September 2022
Accepted: 29 September 2022
Published: 15 December 2022
©2022 the Author(s), licensee AIMS Press.

This is an open access article distributed under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0)