Abstract
The interrelationship of the corrosion activity of enamel melts containing a complex adhesion activator, their specific electric conductivity, and the strength of the adhesion of the corresponding coatings is investigated. The partial and integral effects of aliovalent oxides on the properties of prime vitreous enamels are determined. The principles of the electrochemical theory of adhesion of enamel coatings on steel, using a complex adhesion activator, are confirmed.
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L. D. Svirskii and L. L. Bragina, “Contribution to the question of adhesion of heat-resistant enamel coatings to metal,” in: Refractory and Heat-Resistant Coatings [in Russian], Nauka, Leningrad (1969), pp. 68–72.
L. L. Bragina, Refractory Silicate Coatings for Protecting Ferrous Metals, Author's Abstract of Doctoral Thesis [in Russian], Kharkov (1988).
L. Bragina and A. Bondarenko, “Enamels for new enameling processes,” Smalto Porcellanato, No. 1, 26–31 (2004).
A. Dietzel, Emaillerung. Wissenschaftliche Grundlagen und Grundzige der Technologie, Berlin, New York (1981), pp. 168–390.
G. K. Voronov and L. L. Gragina, “Influence of the structure of steel on its interaction with silicate melts,” in: Scientific Proc. of the Ukrainian Scientific and Research Institute of Refractory Materials [in Russian], No. 101, Karavella, Kharkov (2001), pp. 186–190.
Shirasaki Masahiro, “Reactions and adherence mechanism of Co and Ni on border between metal and enamel,” Chiba Kogyo Deigaku, Kenkay Hokou, No. 47, 340 (2000).
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Translated from Steklo i Keramika, No. 2, pp. 29–32, February, 2008.
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Bragina, L.L., Voronov, G.K. Effect of a complex of aliovalent cations on processes in an enamel melt-low-carbon steel system. Glass Ceram 65, 59–62 (2008). https://doi.org/10.1007/s10717-008-9000-y
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DOI: https://doi.org/10.1007/s10717-008-9000-y