Aerospace Technic and Technology

A mathematical model describing changes in the velocity and temperature of the particles of the sprayedmaterial inside and outside of a two-chamber of high velocity oxygen fuelburner is given. MAPP gas and oxygen were taken as components of the fuel in the calculations. Determination of the 40 μm chromium carbide particles temperature and velocity is performed. The results show that, thanks to the original design of the burner, the conditions for thermal relaxation of the sprayed material are substantially improved, and the possibilities for controlling the spraying process are enhanced.

Vardelle, Armelle., Moreau, Christian., Akedo, Jun. et al. The 2016 Thermal Spray Roadmap. Journal of Thermal Spray Technology, December 2016, vol. 25(8), pp. 1376 – 1440.

Evdokimenko, Yu. I., Kisel, V. M., Frolov, G. A., Buchakov, S. V. Gorelochnoe ustrojstvo dvuhkaskadnoj konfiguracii dlja vysokoskorostnogo vozdushno-toplivnogo napylenija na zhidkom toplive [Burner device of a two-stage configuration for high-speed air-fuel spraying with liquid fuel]. Vestnik dvigatelestroenija – Bulletin engine, Zaporozhye, 2015, no. 2, pp. 143 – 148.

Korobov, Yu. S. Deposition of protective coatings by means of supersonic flame. Thermal engeneering, 2009, vol. 56, no. 2, pp. 142-146.

Götz, Matthäus. Verfahren und Brenner zur Erzeugung von Beschichtungen. Patent DE, no. 102009051948 A1, 2011.

Dolmatov, A. I., Zorik, I. V., Danko, K. A. Hazopolumenevyy pal'nyk dlya nadzvukovoho napylennya pokryttiv [Gas-flame torch for supersonic deposition of coatings]. Patent UA, no. 90044, 2010. 6 p.

Danko, К. А. Modelirovanie techeniia gaza vnutri trakta dvuhkamernoj gorelki dlia sverhzvukovogo gazoplamennogo napyleniia pokrytii [Modeling of the gas flow within the two-chamber burner for supersonic gas-flame spraying of coatings]. Vestnik dvigatelestroenija – Bulletin engine, 2017, no. 1, pp. 130 – 138.

Vopneruk, A. A. Sovershenstvovanie tehnologii vysokoskorostnogo gazoplamennogo napylenija iznosostojkih pokrytij so strukturoj metasta-bil'nogo austenita kand. tekhn. Nauk [Perfection of high-speed gas-flame spraying technology of wear-resistant coatings with the structure of meta-stable austenite. Kand. eng. sci. diss.] Ekaterinburg, Ural'skij federal'nyj universitet imeni pervogo Prezidenta Rossii B. N. El'cina Publ., 2011. 178 p.

Timoshenko, V. I., Galinsky, V. P., Belocerkovets, I. S., Kisel, V. M., Evdokimenko, Ju. I., Kadyrov, V. H. Voprosy matematicheskogo modelirovanija i jeksperimental'noj otrabotki gazodinamicheskih i teplomassoobmennyh processov v gorelochnyh ustrojstvah dlja vysokoskorostnogo gazoplamen-nogo napylenija [Questions of mathematical mod-eling and experimental development of gas-dynamic and heat-mass exchange Processes in burners for high-speed flame spraying]. IV Minsk International Forum on Heat and Mass Transfer, 22-26 May 2000, Institut teplo- i massoobmena imeni A. V. Lykova Nacional'noj akademii nauk Belarusi Publ., 2000, vol. 4, pp. 261-268.

Shishkin, A. S. Primery raschetov ajerodinamicheskih processov pererabotki sypuchih materialov v Excel [Examples of calculations of aerodynamic processes of processing of bulk materials in Excel]. Available at: http://study.urfu.ru/ (Accessed 10.05.2017).

Dolmatov, A. I., Sergeev, S. V., Kurin, M. A., Voronko, V. V., Loza, T. V. Kinematika tvjordoj chasticy, razgonjaemoj potokom gaza v sverhzvukovom sople, i deformacionnoe uprochnenie obrabotannoj poverhnosti [Kinematics of a solid particle accelerated by a gas flow in a supersonic nozzle and strain hardening of the treated surface]. Metallofizika i novejshie tehnologii – Metallophysics and the latest technologies, 2015, vol. 37, no. 7, pp. 871-885.

Golovin, S. I., Averchenko, V. A., Popovich, L. G., Puzryakov, A. F. Matematicheskaja model' svephzvukovogo vozdushno-plazmennogo napylenija [A mathematical model of supersonic air-plasma deposition]. Zhurnal "Svarochnoe Pro-izvodstvo" – Magazine "Welding Production", 2008, no. 2, pp. 16-22. ISSN 1562-322X.

Li, Mingheng., Christofides, Panagiotis D. Modeling and Control of High-Velocity Oxygen-Fuel (HVOF) Thermal Spray: A Tutorial Review. Journal of Thermal Spray Technology, 2009, no. 18(5), pp. 849 – 857.

Turchanin, A. V., Turchanin, M. A. Ter-modinamika tugoplavkih karbidov i karbonitridov [Thermodynamics of refractory carbides and car-bonitrides]. Moscow, Metallurgija Publ., 1991. 352 p.