Abstract
Formation of the erosive wear of austenitic steel under multicycle droplet-impingement impact has been studied. It has been shown that, with an existing relief on the steel surface, the bubble cavitation becomes the predominant wear factor under droplet-impingement erosion. The conditions for development of the bubble cavitation as well as its mechanisms and the regularities of its influence on the erosive destruction of the surface layer have been investigated.
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Varavka, V.N. and Kudryakov, O.V., Regularities of steel wear at interaction of discrete water-drop flow. Part 1: Beginning stage of drop-shock erosion, Trenie Iznos, 2015, vol. 36, pp. 89–98.
Seleznev, L.I. and Ryzhenkov, V.A., Erosion wear of structural materials, Tekhnol. Metall., 2007, no. 3, pp. 19–24.
Ryzhenkov, V.A., Lebedeva, A.I., and Mednikov, Al.F., Erosion wear of the blades of wet-steam turbine stages: Present state of the problem and methods for solving it, Thermal Eng., 2011, vol. 58, pp. 713–718.
Ryzhenkov, V.A., Kachalin, G.V., Mednikov, A.F., Mednikov, Al.F., Kudryakov, O.V., and Varavka, V.N., Kinetics of origin and development of process of erosion destruction of steel surface at drop-shock impact, Nadezhn. Bezopasn. Energ., 2012, no. 16, pp. 67–71.
Mednikov, A.F., Ryzhenkov, V.A., Seleznev, L.I., and Lebedeva, A.I., Studying the variation of parameters characterizing the material surface during the droplet erosion incubation period, Thermal Eng., 2012, vol. 59, pp. 414–420.
Chizhov, A.V. and Shmidt, A.A., Impact of a highvelocity drop on an obstacle, Tech. Phys., 2000, vol. 45, pp. 1529–1537.
Haller, K.K., Ventikos, Y., Poulikakos, D., and Monkewitz, P., Computational study of high-speed liquid droplet impact, J. Appl. Phys., 2002, vol. 92, pp. 2821–2828.
Knapp, R.T., Daily, J.W., and Hammitt, F.G., Kavitatsiya (Cavitation) MacGraw-Hill, 1970; Moscow: Mir, 1974.
Margulis, M.A., Osnovy zvukokhimii (khimicheskie reaktsii v akusticheskikh polyakh (Fundamentals of Soundchemistry (Chemical Reactions in Acoustic Fields)), Moscow: Vyssh. Shkola, 1984.
Agranat, B.A., Dubrovin, M.N., Khavskii, N.N., and Dubrovin, M., Osnovy fiziki i tekhniki ul’trazvuka (Foundations of Physics and Technique of Ultrasound), Moscow: Vyssh. Shkola, 1987.
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Original Russian Text © V.N. Varavka, O.V. Kudryakov, 2015, published in Trenie i Iznos, 2015, Vol. 36, No. 2, pp. 201–212.
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Varavka, V.N., Kudryakov, O.V. Regularities of steel wear under the impact of discrete water-droplet stream. Part II: Stage of the developed droplet-impingement erosion. J. Frict. Wear 36, 153–162 (2015). https://doi.org/10.3103/S1068366615020166
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DOI: https://doi.org/10.3103/S1068366615020166