Abstract
The technology of formation of wear- and corrosion-resistant functionally gradient coatings by a method of microplasma sputtering of composite nanostructured powders was developed. The microhardness of obtained coatings reaches 10.27 GPa, providing effective protection of parts and components of precision engineering in extreme operating conditions.
Similar content being viewed by others
REFERENCES
Margolin, V.I., Zhabrev, V.A., et al., Vvedenie v nanotekhnologiyu (Introduction to Nanotechnology), St. Petersburg: Lan’, 2012.
Farmakovsky, B.V. and Bobkova, T.I., Metal-matrix composite powders for gas-thermal spraying of functional gradient coatings with adjustable hardness, Materialy 12-i mezhdunarodnoi konferentsii “Novye materialy i tekhnologii: poroshkovaya metallurgiya, kompositsionnye materialy, zashchitnye pokrytiya, svarka,” 25–27 maya 2016 g. (Proc. Twelve Int. Conf. “Advanced Materials and Technologies: Powder Metallurgy, Composite Materials, Protective Coatings, and Welding,” May 25–27, 2016), Minsk: Inst. Poroshk. Metall., 2016, pp. 188–191.
Gordienko, A.I., Ivashko, V.V., and Vegera, I.I., Development and application of functional gradient materials. http://cyberleninka/ru/article/n/razrabotka-i-primenenie-funksionalno-gradientnyh-materialov.
Bobkova, T.I., Yurkov, M.A., Chernysh, A.A., Eliseev, A.A., Deev, A.A., Klimov, V.N., and Samodelkin, E.A., RF Patent 2573309, Byull. Izobret., 2016, no. 2.
Sokolov, Yu.V., Plazmennoe formoobrazovanie (Plasma Forming), Minsk: Tekhnoprint, 2003.
Gerashchenkov, D.A., Coating by cold gas-dynamic spraying based on reinforced AlSn + Al2O3 powders, Extended Abstract of Cand. Sci. (Eng.) Dissertation, St. Petersburg, 2015.
Measurement of mechanical properties by instrumental indentation according to GOST R 8.748-2011 (ISO 14577-1:2015). http://nanoscan.info/metodiki/nanoindentirovanie. Accessed February 17, 2017.
Mazeeva, A.K., Ramaldanova, A.A., Yakovleva, N.V., Gerashchenkova, E.Yu., Farmakovsky, B.V., and Bobkova, T.I., The nanostructured state of functional coatings of various classes using operational control methods, in Fiziko-khimicheskie aspekty izucheniya klasterov, nanostruktur i nanomaterialov (Physical and Chemical Study of Clusters, Nanostructures, and Nanomaterials), Tver, 2012, no. 4, pp. 181–188.
Kuznetsov, N.T., Novotortsev, V.M., Zhabrev, V.A., and Margolin, V.I., Osnovy nanotekhnologii: Uchebnik (Fundamentals of Nanotechnology: Manual), Moscow: BINOM. Laboratoriya Znanii, 2014.
GOST (State Standard) 5272-68. Corrosion of Metals. Terms, Moscow: Izd. Standartov, 1969. http://www. gostbaza.ru/?gost=18172. Accessed February 17, 2017.
Gorynin, I.V., Oryshchenko, A.S., Farmakovsky, B.V., and Kuznetsov, P.A., Prospective research and developments at the scientific nanotechnological center CRISM Prometei in the field of new nanomaterials, Vopr. Materialoved., 2014, no. 2 (78), pp. 118–128.
Author information
Authors and Affiliations
Corresponding author
Additional information
Translated by D. Kharitonov
Rights and permissions
About this article
Cite this article
Bobkova, T.I., Farmakovsky, B.V. Wear- and Corrosion-Resistant Functionally Gradient Coatings Based on Composite Powders of Metal–Nonmetal System. Inorg. Mater. Appl. Res. 9, 1096–1099 (2018). https://doi.org/10.1134/S2075113318060047
Received:
Published:
Issue Date:
DOI: https://doi.org/10.1134/S2075113318060047