The development of thermal barrier coatings for turbine blades of single-crystal nickel alloys VZHM4, VZHM5U

Smirnov A.A., Budinovskiy S.A., Matveev P.V., Chubarov D.A.
Smirnov A.A., Budinovskiy S.A., Matveev P.V., Chubarov D.A. The development of thermal barrier coatings for turbine blades of single-crystal nickel alloys VZHM4, VZHM5U // Proceedings of VIAM. 2016. No. 1. DOI: 10.18577/2307-6046-2016-0-1-17-24. URL: https://test.viam.ru/en/journal/2016/1/3
Abstract

Investigations of isothermal heat resistance of single-crystal nickel alloys VZHM4, VZHM5U samples for high-pressure turbine blades with thermal barrier coatings at temperatures 1200 and 1150°C on the basis of 100 and 500 hours are undertaken. The results of metallographic examinations of samples are provided.

Reference list
  1. Kablov E.N., Petrushin N.V., Svetlov I.L., Demonis I.M. Nikelevye litejnye zharoprochnye splavy novogo pokoleniya [Nickel foundry heat resisting alloys of new generation] // Aviacionnye materialy i tehnologii. 2012. №S. C. 36–52.
  2. Zharoprochnyj splav na osnove nikelja [Hot strength alloy on the basis of nickel]: pat. 2402624 Ros. Federaciya; opubl. 16.06.09.
  3. Zharoprochnyj litejnyj splav na osnove nikelya i izdelie, vypolnennoe iz nego [Heat resisting cast alloy on the basis of nickel and the product which has been executed of it ]: pat. 2365656 Ros. Federaciya; opubl. 30.01.08.
  4. Petrushin N.B., Ospennikova O.G., Visik E.M. i dr. Zharoprochnye nikelevye splavy nizkoj plotnosti [Heat resisting nickel alloys of low density] // Litejnoe proizvodstvo. 2012. №6. S. 5–11.
  5. Kablov E.N., Muboyadzhyan S.A. Zharostojkie i teplozashhitnye pokrytiya dlya lopatok turbiny vysokogo davleniya perspektivnyh GTD [Heat resisting and heat-protective coverings for turbine blades of high pressure of perspective GTE] // Aviacionnye materialy i tehnologii. 2012. №S. S. 60–70.
  6. Kablov E.N., Muboyadzhyan S.A. Heat-resistant coatings for the high-pressure turbine blades of promising GTES // Russian metallurgy (Metally). 2012. №1. P. 1–7.
  7. Budinovskij S.A., Matveev P.V., Smirnov A.A. Issledovanie zharostojkosti litejnyh zharoprochnyh nikelevyh splavov v oblasti temperatur 1000–1200°C [Research of heat resistance of cast heat resisting nickel alloys in the field of temperatures 1000–1200°C] // Aviacionnaya promyshlennost. 2014. №2. S. 48–52.
  8. Kablov E.N., Muboyadzhyan S.A., Budinovskij S.A., Lutsenko A.N. Ionno-plazmennye zashhitnye pokrytiya dlya lopatok gazoturbinnyh dvigatelej [Ion-plasma protecting covers for blades of gas turbine engines] // Metally. 2007. №5. S. 23–34.
  9. Muboyadzhyan S.A., Kablov E.N. Vacuum plasma technique of protective coatings production of complex alloys // Metal Sciens and Heat Treatment. 1995. №2. P. 15–18.
  10. Muboyadzhyan S.A., Budinovskij S.A., Gayamov A.M., Matveev P.V. Vysokotemperaturnye zharostojkie pokrytiya i zharostojkie sloi dlya teplozashhitnyh pokrytij [High-temperature heat resisting coverings and heat resisting layers for heat-protective coverings] // Aviacionnye materialy i tehnologii. 2013. №1. S. 17–20.
  11. Budinovskij S.A., Muboyadzhyan S.A., Gayamov A.M., Kosmin A.A. Zharostojkie ionno-plazmennye pokrytiya dlya lopatok turbin iz nikelevyh splavov, legirovannyh reniem [Heat resisting ion-plasma coverings for blades of turbines from the nickel alloys alloyed by reniye] // MiTOM. 2008. №6. C. 31–36.
  12. Gayamov A.M., Budinovskij S.A., Muboyadzhyan S.A., Kosmin A.A. Vybor zharostojkogo pokrytija dlya zharoprochnogo nikelevogo renij-rutenijsoderzhashhego splava marki VZhM4 [Selection of heat-resistant coating with metalloceramic barrier layer for protection of Re-Ru nickel-based superalloy] // Trudy VIAM: elektron. nauch.-tehnich. zhurn. 2014. №1. St. 01. Available at: http://www.viam-works.ru (accessed: September 15, 2015). DOI: 10.18577/2307-6046-2014-0-1-1-1.
  13. Chubarov D.A., Budinovskij S.A. Vybor keramicheskogo materiala dlja teplozashhitnyh pokrytij lopatok aviacionnyh turbin na rabochie temperatury do 1400°C [Choosing ceramic materials for thermal barrier coating of GTE turbine blades on working temperatures up to 1400°С] // Trudy VIAM: elektron. nauch.-tehnich. zhurn. 2015. №4. St. 07. Available at: http://www.viam-works.ru (accessed: September 15, 2015). DOI: 10.18577/2307-6046-2015-0-4-7-7.
  14. Chubarov D.A., Matveev P.V. Novye keramicheskie materialy dlya teplozashhitnyh pokrytij rabochih lopatok GTD [New ceramic materials for thermal barrier coating using in GTE turbine blades] // Aviacionnye materialy i tehnologii. 2013. №4. S. 43–46.
  15. Kablov E.N., Muboyadzhyan S.A. Teplozashhitnye pokrytiya dlya lopatok turbiny vysokogo davleniya perspektivnyh GTD [Heat-protective coverings for turbine blades of high pressure of perspective GTE] // Metally. 2012. №1. S. 5–13.
  16. Kablov E.N., Muboyadzhyan S.A., Budinovskij S.A., Pomelov Ya.A. Ionno-plazmennye zashhit-nye pokrytiya dlya lopatok gazoturbinnyh dvigatelej [Ion-plasma protecting covers for blades of gas turbine engines] // Konversiya v mashinostroenii. 1999. №2. S. 42–47.
  17. Muboyadzhyan S.A., Budinovskij S.A., Gayamov A.M., Smirnov A.A. Poluchenie keramicheskih teplozashhitnyh pokrytij dlya rabochih lopatok turbin aviacionnyh GTD magnetronnym metodom [Receiving ceramic heat-protective coatings for working blades of turbines of aviation GTD magnetronny method] // Aviacionnye materialy i tehnologii. 2012. №4. S. 3–8.
  18. Budinovskij S.A., Muboyadzhyan S.A., Gayamov A.M. Sovremennoe sostoyanie i osnovnye tendencii razvitiya vysokotemperaturnyh teplozashhitnyh pokrytij dlya rabochih lopatok turbin aviacionnyh GTD [Current state and the main tendencies of development of high-temperature heat-protective coverings for working blades of turbines of aviation GTE] // Aviacionnaya promyshlennost. 2008. №4. S. 33–37.
  19. Matveev P.V., Budinovskij S.A., Chubarov D.A. Tehnologiya polucheniya ionno-plazmennyh zharostojkih podsloev s povyshennym soderzhaniem alyuminiya dlya perspektivnyh TZP [Technology for production of ion-plasma heat-resistant bonding sub-layers with increased aluminum content for advanced TBCs] // Aviacionnye materialy i tehnologii. 2014. №S5. S. 56–60.
  20. Budinovskij S.A., Chubarov D.A., Matveev P.V. Sovremennye sposoby naneseniya teplozashhitnyh pokrytij na lopatki gazoturbinnyh dvigatelej (obzor) [Modern methods for deposition of thermal barrier coatings on GTE turbine blades (review)] // Aviacionnye materialy i tehnologii. 2014. №S5. S. 38–44.