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High-temperature oxidation of low-alloyed steel under glass coatings

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Abstract

Some peculiarities of the time and temperature dependences of the high-temperature oxidation of a low-alloyed low-carbon steel covered with a glass coating are studied. The dependences characterizing the oxidation of steel without coating and that covered with it are found to have a similar character. Based on the data obtained, it is supposed that, at low temperatures, the prevailing mechanism involves the penetration of oxygen toward the metal surface through macro- and micropores of the coating, while, at high temperatures, the oxidation, which seems to be related to the electrochemical corrosion of the surface under a glass melt, becomes predominant. The article is published in the original.

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Authors and Affiliations

  1. Orel State Technical University, Naugorskoe sh. 29, Orel, 302020, Russia

    K. Yu. Frolenkov, L. Yu. Frolenkova & I. F. Shadrin

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  1. K. Yu. Frolenkov
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  2. L. Yu. Frolenkova
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  3. I. F. Shadrin
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Correspondence to L. Yu. Frolenkova.

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Frolenkov, K.Y., Frolenkova, L.Y. & Shadrin, I.F. High-temperature oxidation of low-alloyed steel under glass coatings. Prot Met Phys Chem Surf 46, 103–109 (2010). https://doi.org/10.1134/S2070205110010156

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  • DOI: https://doi.org/10.1134/S2070205110010156

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