Features of the Corrosion Behavior of Metals in the Presence of Organosilicon Nanolayers on Their Surfaces

A study of the corrosion and electrochemical behavior of metals modified with organosilane-based compositions has been carried out. It has been established that modification of the carbon-steel surface with aqueous solutions of organosilanes results in the formation of siloxane layers on the surface...

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Bibliographic Details
Published in:Protection of metals and physical chemistry of surfaces 2022-10, Vol.58 (5), p.959-976
Main Authors: Petrunin, M. A., Maksaeva, L. B., Rybkina, A. A., Yurasova, T. A., Gladkikh, N. A., Shapagin, A. V., Kotenev, V. A., Tsivadze, A. Yu
Format: Article
Language:English
Subjects:
Anodic polarization
Aqueous solutions
Carbon steels
Characterization and Evaluation of Materials
Chemistry and Materials Science
Chloride ions
Composition
Corrosion and Coatings
Corrosion tests
Crosslinking
Electrochemical analysis
Industrial Chemistry/Chemical Engineering
Inorganic Chemistry
Materials Science
Metallic Materials
Nanoscale and Nanostructured Materials and Coatings
Pitting (corrosion)
Siloxanes
Surface layers
Thickness
Tribology
Uniform attack (corrosion)
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Summary:A study of the corrosion and electrochemical behavior of metals modified with organosilane-based compositions has been carried out. It has been established that modification of the carbon-steel surface with aqueous solutions of organosilanes results in the formation of siloxane layers on the surface of a thickness of approximately a micrometer. The presence of organosilicon layers on the metal provided inhibition of both uniform corrosion and local (pitting) dissolution of carbon steel. The most effective were dense layers with the maximum cross-linking degree formed by modification from a 1% vinylsilane solution or using a mixture of vinyl- and aminosilanes. Organosilicon surface layers formed after metal modification by solutions of organosilane-based compositions were resistant to prolonged exposure to water, aggressive chloride ions and anodic polarization.
ISSN:2070-2051
2070-206X
DOI:10.1134/S2070205122050197