INFLUENCE OF THE ELECTROLYTE FLOW AND CLEANING AIR PRESSURE ON THE OVERCUT IN BIPOLAR PULSED ELECTROCHEMICAL MICRO-MACHINING PROCESSES

Authors

  • Octavio Catarino-Aguilar Universidad Autónoma del Estado de México Author
  • Everardo-Efrén Granda-Gutiérrez Universidad Autónoma del Estado de México Author
  • José-Arturo Pérez-Martínez Universidad Autónoma del Estado de México Author
  • José-Luis Tapia-Fabela Universidad Autónoma del Estado de México Author
  • Allan-Antonio Flores Fuentes Universidad Autónoma del Estado de México Author
  • JuanFernando García Mejía Universidad Autónoma del Estado de México Author

DOI:

https://doi.org/10.6036/10766

Keywords:

micromachining, electrochemical machining, overcut, electrolyte, automatic processes.

Abstract

This paper presents an experimental investigation on the reduction of overcutting in the bipolar pulsed electrochemical pulsed machining process. It is described how this unconventional manufacturing method, which involves the anodic dissolution of a metal part immersed in an electrolytic medium, can be improved by incorporating compressed air as a residue-cleaning medium and modifying the electrolyte flow rate to reduce overcutting. These results can be helpful for the inclusion of these variables in process control systems and generate significant improvements in the fabrication of components at micrometer scales.

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Published

2024-05-27

Issue

Vol. 99 No. 2 (2024)

Section

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This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.