Fatigue test results of the rotating steel blades of steam turbine K-25-0.6 GEO with ion-plasma coating
- Авторы: Kachalin G.1, Mednikov A.1, Tkhabisimov A.1, Arkad’ev D.2, Temkin S.2, Senina N.2
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Учреждения:
- Moscow Power Engineering Institute (MPEI National Research University)
- Kaluga Turbine Plant
- Выпуск: Том 63, № 12 (2016)
- Страницы: 848-851
- Раздел: Steam-Turbine, Gas-Turbine, and Combined-Cycle Plants and Their Auxiliary Equipment
- URL: https://journals.rcsi.science/0040-6015/article/view/172460
- DOI: https://doi.org/10.1134/S004060151612003X
- ID: 172460
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Аннотация
Fatigue test results of the rotating steel blades of the fourth stage of the K-25-0.6 low pressure cylinder Geo steam turbine manufactured in the Kaluga Turbine Plant (hereinafter, KTP) with the ion-plasma coating were presented. Coating formation was carried out at the National Research University (MPEI) on the Gefest vacuum pilot plant by the magnetron sputtering method. Characteristics of the obtained coating were analyzed with the use of the scientific-research equipment of the National Research University (MPEI). Fatigue tests of the rotating blades and determination of the fatigue strength of the material with the ion-plasma coating were carried out on the electrodynamic vibration machines VEDS-400A in the KTP structural laboratory. The following characteristics were obtained after tests: Ti-TiN composition, 10–11 μm thickness, 1200 HV 0.05 microhardness. Fatigue tests showed that destruction, regardless of availability or nonavailability of the coating, took place by cross-section in the root zone both on the leading and trailing edges of the blade, i.e., in the most stressed zones. It was found out that the maximum stresses during tests were revealed in the root section along the trailing edge on the blade pressure side, and the less stresses were on the leading edge. Fatigue strength of the working blades after coating formation increased by 12% minimum. Results of the fatigue tests prove the previously obtained data concerning 10–12% increase of the fatigue strength of the blade steel with the ion-plasma coating and allow claiming that the process of their formation exerts the positive influence on the fatigue characteristics of the blade materials.
Об авторах
G. Kachalin
Moscow Power Engineering Institute (MPEI National Research University)
Email: mednalex@mail.ru
Россия, ul. Krasnokazarmennaya 14, Moscow, 111250
A. Mednikov
Moscow Power Engineering Institute (MPEI National Research University)
Автор, ответственный за переписку.
Email: mednalex@mail.ru
Россия, ul. Krasnokazarmennaya 14, Moscow, 111250
A. Tkhabisimov
Moscow Power Engineering Institute (MPEI National Research University)
Email: mednalex@mail.ru
Россия, ul. Krasnokazarmennaya 14, Moscow, 111250
D. Arkad’ev
Kaluga Turbine Plant
Email: mednalex@mail.ru
Россия, ul. Moskovskaya 241, Kaluga, 248010
S. Temkin
Kaluga Turbine Plant
Email: mednalex@mail.ru
Россия, ul. Moskovskaya 241, Kaluga, 248010
N. Senina
Kaluga Turbine Plant
Email: mednalex@mail.ru
Россия, ul. Moskovskaya 241, Kaluga, 248010