Перегляд за Автор "Stepanyuk, A. I."

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Improving wear resistance of responsible hydraulic hammer details with ion-plasma treatment
(Харківський національний автомобільно-дорожній університет, 2020) Glushkova, D. B.; Ryzhkov, Yu. V.; Kostina, L. L.; Chigrin, A. A.; Stepanyuk, A. I.; Глушкова, Д. Б.; Рижков, Ю. В.; Костіна, Л. Л.; Чигрин, А. О.; Степанюк, А. І.; Глушкова, Д. Б.; Рыжков, Ю. В.; Костина, Л. Л.; Чигрин, А. А.; Степанюк, А. И.
Details of the hammer during operation are subject to wear, which leads to a decrease in their service life. In accordance with the literature data in the practice of engineering uses many methods of hardening, which do not give a significant effect. Therefore, the application of new methods of surface hardening has become topical. These methods include ion-plasma chromium plating. On the basis of experimental studies, the effect of ion-plasma chromium plating on the wear resistance and mechanical properties of hydraulic hammer parts has been established, structural changes in the material have been analyzed. Ion-plasma chromizing of the parts pro-motes the increase of their wear resistance in 1.75 times as compared to those which are not strengthened. The technology of ion-plasma chromizing secures the running of the strengthened parts without breaking off and chipping. The zones of structural changes are marked on the sec-tions of parts damages, which are typical for the effects of the second hardening.
Increasing the corrosion resistance of turbine
(Харківський національний автомобільно-дорожній університет, 2021) Hlushkova, D. B.; Bahrov, V. A.; Hrinchenko, O. D.; Stepanyuk, A. I.; Hnatiuk, A. A.; Kalinina, N. E.; Глушкова, Д. Б.; Багров, В. А.; Степанюк, А. І.; Гнатюк, А. А.; Гринченко, О. Д.; Калініна, Н. Є.
The reliability of the vane apparatus of steam turbines largely determines the operation of the turbine as a whole. The results of scientific research indicate that the surface operation of the blades in the wet - steam flow is caused by a combination of corrosion and drip erosion. The presence of chemical elements and compounds in the working fluid intensifies the process of blade wear. The pH value of the working environment, which can fluctuate significantly during operation, has a significant effect on the wear characteristics. The influence of methods of strengthening the leading edges of steam turbine blades made of steel is analyzed 15Х11МФ on corrosion resistance. Corrosion tests of blade samples were carried out, the inlet edges of which were strengthened in three ways: high current amplification, electrospark alloying with T15K6 alloy, electrospark alloying with steel 15Х11МФ According to the results of the tests, the layer strengthened by hardening by high-frequency currents has the lowest corrosion rate, the layer strengthened by electrospark alloying with T15K6 hard alloy has the highest. The corrosion rate of the layer reinforced by electrospark alloying of steel 15H11MF is 2.1 less than that of the layer reinforced with T15K6 alloy.