The Paton Welding Journal, 2012, #2, 28-32 pages
EFFICIENCY OF THE USE OF PROTECTIVE EXTENSION IN PLASMA SPRAYING
A.P. MURASHOV, A.P. GRISHCHENKO, N.V. VIGILYANSKAYA, A.N. BURLACHENKO and I.A. DEMIANOV
E.O. Paton Electric Welding Institute, NASU, Kiev, Ukraine
Abstract
It was established that the use of the protective extension provides a 25 % increase in average velocity of spraying particles, improves heating of the particles, and decreases the required specific energy of the spraying process by 20 % due to increase in size of the high-temperature zone of the plasma jet. The content of oxides in coatings deposited by using the extension is 10 % lower, the content of pores in them is 4 times lower, and the coating to substrate adhesion strength is 20 % higher.
Keywords: plasma spraying, plasma jet, extension, properties of coatings, material utilisation factor, experimental design
Received: 05.09.11
Published: 28.02.12
References
1. Donskoj, A.V., Klubnikin, V.S. (1979) Electric plasma processes and units in machine building. Leningrad: Mashinostroenie.
2. Dresvin, S.V., Donskoj, A.V., Goldfarb, V.M. et al. (1972) Low-temperature plasma physics and technology. Moscow: Atomizdat.
3. (1973) Production of coatings by high-temperature spraying. Ed. by I.K. Druzhinin, V.V. Kudinov. Moscow: Atomizdat.
4. Bobrov, G.V., Iliin, A.A. (2004) Deposition of inorganic coatings. Moscow: Intermet Engineering.
5. Lugscheider, E. (1988) The family of plasma spray processesЕ present status and future prospects. In: Proc. of 1st Plasma-Techn. Symp. (Lucerne, Switzerland, 1988), Vol. 1, 23-48.
6. Lugscheider, E., Rass, E., Nicoll, A.R. (1991) Underwater plasma spraying. In: Proc. of 2nd Plasma-Techn. Symp. (Lucerne, Switzerland, 5-7 June 1991), Vol. 1, 213-219.
7. Borisov, Yu., Chernyshov, A., Korzhyk, V. (1991) Structure and parameters of heterogeneous plasma jets shielded by water flow. Ibid., 75-84.
8. Houben, J.M., Zaat, J.H. (1976) Shielded open air plasma spraying of reactive materials. In: Proc. of 8th Int. Thermal Spray Conf. (Miami Beach, USA), 78-85.
9. Baldaev, L.Kh., Borisov, V.N., Vakhalin, V.A. (2007) Thermal spraying: Manual. Moscow: Market DS.
10. Kudinov, V.V., Kosolapov, A.N., Pekshev, P.Yu. (1987) Extensions for formation of local shielding in plasma spraying. Izvestiya SO AN SSSR. Series Technical Sciences, 69-75.
11. Murashov, A.P., Demianov, I.A., Grishchenko, A.P. et al. (2009) Application of protective extension in thermal spraying of quasi-crystalline coatings. The Paton Welding J., 4, 46-47.
12. Borisov, Yu.S., Krivtsun, I.V., Muzhichenko, A.F. et al. (2000) Computer modelling of the plasma spraying process. The Paton Welding J., 12, 40-50.
13. Bondar, A.G. (1973) Mathematical modelling in chemical engineering. Kiev: Vyshcha Shkola.
14. Petrov, S.V., Karp, I.N. (1993) Air-gas plasma spraying. Kiev: Naukova Dumka.
Suggested Citation
A.P. MURASHOV, A.P. GRISHCHENKO, N.V. VIGILYANSKAYA, A.N. BURLACHENKO and I.A. DEMIANOV (2012) EFFICIENCY OF THE USE OF PROTECTIVE EXTENSION IN PLASMA SPRAYIN.
The Paton Welding J., 02, 28-32.