The Development of Technology of Basalt Nanocomposite Coatings Detonation-Gas Spaying on the Disk («Target») Basis of Thin Layer Magnetron Spaying Equipment



The chemical composition, structure and microhardness of detonation coatings based on mechanically activated mixture of basalt powder and TiAl have been studied. It has been shown that the application of mechanomixture with detonation method results in the formation of composite coating similar to the composition of starting mixture. It has high microhardness and temperature resistance that will increase the wear resistance of the parts coated with basalt at elevated temperatures.




Dr. Dmitry A. Chinakhov




T.A. Sitnikova et al., "The Development of Technology of Basalt Nanocomposite Coatings Detonation-Gas Spaying on the Disk («Target») Basis of Thin Layer Magnetron Spaying Equipment", Materials Science Forum, Vol. 927, pp. 201-207, 2018


July 2018




* - 通讯作者

[1] Kozhina T.D., Eroshkov V.Yu., Sergeev A.E. Properties of nanocomposite coatings obtained with the magnetron spraying method. // Mater.VII Intern. scientific-practical. conf. Prague, 2011. P. 11-14.

[2] Tatarintseva O.S. Basalt technology today: state and prospects // Proceedings of the 3rd All-Russian scientific-practical conference of students, graduate students and young scientists with international participation. - Biysk: Publishing House of the ASTU - 2010. - In 2 parts: P.1. - P. 7 -12. (in Rusian).

[3] Evaluation of wear resistance of products on the basis of mechanically activated materials / A.V. Sobachkin, A.A. Sitnikov, A.Р. Sviridov // Applied Mechanics and Materials. – 2015. – Vol. 698. – p.374–377.


[4] Dynamic diffractometry of phase transformations during high-temperature synthesis in mechanically activated powder systems in the thermal explosion mode / Popova A.A., Sobachkin A.V., Nazarov I.V., Yakovlev V.I., Loginova M.V., Sitnikov A.A., Sharafutdinov M.R., Lyakhov N.Z. // Bulletin of the Russian Academy of Sciences: Physics. 2013. Vol. 77. № 2. P. 120-122.


[5] The Evolution of Structural and Phase States of Titanium Aluminides after γ Irradiation in Small Doses / M. V .Loginova, V. I. Yakovlev, A. A. Sitnikov, A. V. Sobachkin, S. G. Ivanov, A. Z. Negodyaev, A. V. Gradoboev // Physics of Metals and Metallography. – 2017. – Vol. 118. – № 2. – P. 170–175.


[6] Boguslayev, V.O. Detonation applying of coatings on parts of aircraft engines and technological equipment, followed by a magneto-abrasive treatment (monograph) / V.O. Boguslayev, A.I. Dolmatov, P.D. Zhemanyuk, A.I. Kulagin, V.G. Mihaylutsa, V.A. Simonenko. - Zaporozhye: Deca, 1996. - 366 p. (in Rusian).

[7] National Research Council (U.S.) Advanced fibers for high-temperature ceramic composites: advanced materials for the twenty-first century // Washington D.C.: National Academy Press. – 1998. – 94 p.

[8] Dzhigiris, D.D. Fundamentals of production of basalt fibers and products / D.D. Dzhigiris, M.F. Mahova. - M .: Teploenergetic [Heat and Power Engineer], 2002. - 416 p. (in Rusian).

[9] Zemtsov A.N. Basalt wool: Past and Present [Text] / A.N. Zemtsov, S.I. Ogaryshev - Perm 2003. - 124 p. (in Rusian).

[10] Application of Self-Propagating High-Temperature Synthesis and Mechanoactivating Treatment for Producing Multi-Component Composite Alloying Materials / V. I. Yakovlev, A. V. Sobachkin, A. A. Sitnikov // Applied Mechanics and Materials. – 2013. – Vol. 379. – Р.173–177.