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Surface Engineering and Applied Electrochemistry

Published in:

01-12-2023

Enhancement of Oxide Coatings Quality Formed by Electrolytic Oxidation Methods on Inner Surfaces of Lengthy Products

Authors: O. E. Tchufistov, V. N. Malyshev, A. N. Zolkin, E. A. Tchufistov

Published in: Surface Engineering and Applied Electrochemistry | Issue 6/2023

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Abstract

It is known that the methods of electrolytic oxidation, including traditional anodizing and microarc oxidation, implemented according to classical schemes in electrolytic baths with mechanical, pneumatic, and magnetic mixers, cannot provide high-quality homogeneous oxide coatings on the inner surfaces of products made from valve metal alloys. In this paper, the principal possibility of obtaining high-quality uniform coatings on the extended internal surfaces of products, including the surfaces of deep holes, when an electrolyte solution is passed through them, is revealed. It has been experimentally proved that, based on the proposed approach, it is possible to process products with deep holes, achieving a ratio of both minimum and maximum values of the thickness and the breakdown voltage of coatings on the internal and external surfaces in a range of 0.85–0.93. A possibility of forming coatings exclusively on the internal surfaces of products without changing the state of their external surfaces, moreover, without using expensive electrolytic baths—inside internal cavities of products themselves, is shown. A good correlation between the values of the thickness and of the breakdown voltage of coatings has been established. As a result, a possibility of indirectly determine the coatings thickness based on the results of their breakdown voltage measuring has been substantiated.

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Title: Enhancement of Oxide Coatings Quality Formed by Electrolytic Oxidation Methods on Inner Surfaces of Lengthy Products
Authors: O. E. Tchufistov
V. N. Malyshev
A. N. Zolkin
E. A. Tchufistov
Publication date: 01-12-2023
Publisher: Pleiades Publishing
Published in: Surface Engineering and Applied Electrochemistry / Issue 6/2023
Print ISSN: 1068-3755
Electronic ISSN: 1934-8002
DOI: https://doi.org/10.3103/S1068375523060169

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