Mathematical theory of electrochemical machining 2. Anodic shaping

Fitz-gerald J.M., Mcgeough J.A. and Marsh L.M. (1969) Mathematical theory of electrochemical machining 2. Anodic shaping. IMA Journal of Applied Mathematics (Institute of Mathematics and Its Applications), 5 4: 409-421. doi:10.1093/imamat/5.4.409


Author Fitz-gerald J.M.
Mcgeough J.A.
Marsh L.M.
Title Mathematical theory of electrochemical machining 2. Anodic shaping
Journal name IMA Journal of Applied Mathematics (Institute of Mathematics and Its Applications)   Check publisher's open access policy
ISSN 0272-4960
Publication date 1969-01-01
Sub-type Article (original research)
DOI 10.1093/imamat/5.4.409
Volume 5
Issue 4
Start page 409
End page 421
Total pages 13
Subject 1312 Molecular Biology
2613 Statistics and Probability
2605 Computational Mathematics
3303 Development
2308 Management, Monitoring, Policy and Law
3317 Demography
2604 Applied Mathematics
Abstract Further solutions to the potential equation with moving boundary conditions, applicable to the electrochemical machining process, are presented. A theory is proposed for the machining of an arbitrary distribution of irregularities on to an anode for the cases where the cathode profile is specified and the resultant anode shape must be found, and where a cathode profile must be designed to give a required anode shape. Limitations on the application of this theory are discussed. The effects of overpotential are also discussed; overpotential only at the cathode is shown to reduce the limiting amplitude which can be obtained on the anode, and to increase the machining time required to achieve it. Overpotential only at the anode has no effect on this limiting amplitude, but again increases the necessary machining time.
Q-Index Code C1
Q-Index Status Provisional Code
Institutional Status Unknown

Document type: Journal Article
Sub-type: Article (original research)
Collection: Scopus Import - Archived
 
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Created: Tue, 14 Jun 2016, 10:27:16 EST by System User