An experimental investigation of photo chemical machining process for stainless-steel material by using different etchants

An experimental investigation of photo chemical machining process for stainless-steel material by using different etchants

Nowadays, miniscule components are manufactured without burrs and without stress by using photochemical machining. Non-conventional machining technologies like PCM are becoming more used in electronics, automotive, and other industries to make highly thin, precise, and complicated parts. The cycle b...

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Bibliographic Details
Published in:Materials today : proceedings
Main Authors: Ruhela, Vikash, Ansari, Mohd. Imran, Jadhav, Pradeep V., Mohite, Dadaso D., Patil, Mahesh J., Dixit, Prachi A., Yadav, Prashant D., Mahajan, Ritesh G., Harale, Akshay A.
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-03-2023
Subjects:
CuCl2
DoE
Engraving
FeCl3
NCM
PCM
CuCl2
NCM
Engraving
FeCl3
PCM
DoE
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Summary:Nowadays, miniscule components are manufactured without burrs and without stress by using photochemical machining. Non-conventional machining technologies like PCM are becoming more used in electronics, automotive, and other industries to make highly thin, precise, and complicated parts. The cycle begins with the creation of a picture tool using CAD software, which is then printed on straight forwardness paper. Photochemical machining for stainless steel was examined under a variety of control limitations. Temperature and time are control limitations, while roughness of the surface and the engraving depth are reaction limitations. The goal of this study is with the purpose to compare the engraving depth and the roughness of the surface of two distinctive etchants namely Cupric chloride and Ferric chloride on Stainless-Steel (SS) material under various control limitations.
ISSN:2214-7853
2214-7853
DOI:10.1016/j.matpr.2023.03.324