Structure and properties of the intermetallide based on nickel aluminide microalloyed by rare-earth metals

The paper studies the combined effects of rare earth metals such as praseodymium, neodymium and erbium, melting technologies on intermetallic alloy based on nickel aluminide and pure charge materials using 25, 50 and 75 wt. % of waste, the technology of casting single-crystals of crystallographic orientation [001] and their heat treatment combined with hot isostatic pressing (HIP), on mechanical properties and long-term strength at the level of passport data.

1. Kablov, E .N., Innovatsionnye razrabotki FGUP VIAM GNTS RF po realizatsii “Strategicheskikh napravleniy razvitiya materialov i tekhnologiy ikh pererabotki na period do 2030 goda” [Innovative developments of FSUE “VIAM” for the implementation of “Strategic Directions for the Development of Materials and Technologies for Their Processing until 2030”], Aviatsionnye materialy i tekhnologii, 2015, No 1, pp. 3–33. DOI: 10.18577/2071-9140-2015-0-1-3-33

2. Kablov, E.N., Strategicheskie napravleniya razvitiya materialov i tekhnologiy ikh pererabotki na period do 2030 goda [Strategic directions of development of materials and technologiesof their processing for the period up to 2030], Aviatsionnye materialy i tekhnologii, 2012, No S, pp. 7–17.

3. Inozemtsev, A.A., Nikhamkin, M.A., Sandratsky, V.L., Osnovy konstruirovaniya aviatsionnykh dvigateley i energeticheskikh ustanovok[Fundamentals of the design of aircraft engines and power plants], Textbook. Moscow: Mashinostroenie, 2008.

4. Sidorov, V.V., Rigin, V.Ye., Kablov, D.E.,Metallurgiya liteynykh zharoprochnykh splavov: tekhnologiya i oborudovanie [Metallurgy of casting heat-resistant alloys: technology and equipment], Moscow: VIAM, 2016.

5. Shmotin, Yu.N., Starkov R.Yu., Danilov, D.V., Ospennikova, O.G., Lomberg, B.S., Novye materialy dlya perspektivnogo dvigatelya OAO NPO “Saturn” [New materials for the perspective engine of JSC NPO Saturn], Aviatsionnye materialy i tekhnologii, 2012, No 2, pp. 6–8.

6. Sidorov, V.V., Rigin, V.E., Goryunov, A.V., Min P.G., Resursosberegayushchaya tekhnologiya pererabotki konditsionnykh otkhodov liteynykh zharoprochnykh splavov [Resource-saving technology of processing of conditional waste of foundry heat-resistant alloys], Metallurg, 2014, No 5, pp. 35–39.

7. Povarova, K.B., Buntushkin, V.P., Kazanskaya, N.K., Drozdov, A.A., Bazyleva, O.A., Osobolegkie zharoprochnye nanostrukturirovannye splavy na osnove Ni3Al dlya aviatsionnogo dvigatelestroeniya i energeticheskogo mashinostroeniya [Light-weight, heat-resistant nanostructured Ni3Albased alloys for aircraft enginebuilding and power engineering], Voprosy Materialovedeniya, 2008, No 2, pp. 85–93.

8. Guo, J.T., Sheng, L.Y., Xie, Y. et al. Microstructure and mechanical properties of Ni3Al and Ni3Al-1B base alloys fabricated by SHS, Intermetallics, 2011, No 19, pp. 137–142.

9. Li, P., Li, Sh., Han, Ya., Influence of solution heat treatment on microstructure and stress rupture properties of a Ni3Al base single crystal superalloy IC6SX, Intermetallics, 2011, No 19, pp. 182–186.

10. Bazyleva, O.A., Arginbaeva E.G., Turenko, E.Yu., Vysokotemperaturnye intermetallidnye splavy dlya detaley GTD [High-temperature intermetallic alloys for GTE parts], Aviatsionnye materialy i tekhnologii, 2013, No 3, pp. 26–31.

11. Jozwik, P., Polkowski, W., Bojar Z., Applications of Ni3Al based intermetallic alloyscurrent stage and potential perceptivities, Materials, 2015, No 8(5), pp. 2537–2568. DOI: 10.3390/ma8052537.

12. Tikhomirova, E.A., Budinovsky, S.A., Zhivushkin, A.A., Sidokhin, E.F., Osobennosti razvitiya termicheskoy ustalosti v detalyakh izzharoprochnykh splavov s pokrytiyem [Features of development of thermal fatigue in details from heat-resistant alloys with coating], Aviatsionnye materialy i tekhnologii, 2017, No 3, pp. 20–25.

13. Bazyleva, O.A., Kablov, E.N., Arginbaeva, E.G., Turenko, E.Yu., Shestakov, A.V., Patent of the Russian Federation No RU(11) 2 434 068(13) C1: Alloy on base of intermetallide Ni3Al, Date of publication: 20.11.2011, Bull. 32.

14. Shishkareva, L.M., Kuzmina, N.A., Obzor metodik opredeleniya kachestva struktury monokristallicheskikh otlivok zharoprochnykh splavov [A review of methods for determining the quality of the structure of single-crystal castings of high-temperature alloys], Proceedings of VIAM, 2014, No 1, Art. 06 URL: http://www.viam-works.ru (reference date: 02/03/2017). DOI: 10.18577/2307-6046-2014-0-1-6-6.

15. Bazyleva, O.A., Unchikova, M.V., Turenko, E.Yu., Bagetov, V.V., Shestakov, A.V., Issledovanie vliyaniya termicheskoy obrabotki na mikrostrukturu, parametry dendritnoy likvatsii i vremya do razrusheniya intermetallidnogo reniysoderzhashchego splava na osnove Ni3Al [Investigation of the effect of heat treatment on the microstructure, parameters of dendritic liquation and time to failure of interme-tallic rhenium-containing alloy based on Ni3Al], Proceedings of VIAM, 2016, No 10, Art. 04 URL: http://www.viam-works.ru (reference date: 02/03/2017). DOI: 10.18577/2307-6046-2016-0-10-4-4.

16. Ospennikova, O.G., Evgenov, A.G., Bazyleva, O.A., Arginbaeva, E.G., Turenko, E.Yu., Mikrostrukturnye i fazovye prevrashcheniya v intermetallidnom splave na osnove Ni3Al posle vozdeystviya termicheskoy obrabotki i goryachego izostaticheskogo pressovaniya [Microstructural and phase transformations in an intermetallic alloy based on Ni3Al after the effect of heat treatment and hot isostatic pressing], Proceedings of VIAM, 2016, No S (43), pp. 36–43 (viam-works.ru).

17. Povarova, K.B., Kazanskaya, N.K., Drozdov, A.A., Bazyleva, O.A., Izuchenie vliyaniya redkozemelnykh metallov (RZM) na zharoprochnost splavov na osnove Ni3Al [Study of the effect of rare-earth metals (REM) on the heat resistance of Ni3Al-based alloys], Metally, 2011, No 1, pp. 55–63.

18. Sidorov, V.V., Timofeeva, O.B., Kalitsev, V.A., Goryunov, A.V., Vliyanie mikrolegirovaniya RZM na svoystva i strukturno-fazovye prevrashcheniya v intermetallidnom splave VKNA-25-VI [Influence of micro-alloying of REM on properties and structural-phase transformations in the intermetallic VKNA-25-VI alloy], Aviatsionnye materialy i tekhnologii, 2012, No S, pp. 97–105.

19. Kablov, E.N., Sidorov, V.V., Kablov, D.E., Min, P.G., Rigin, V.Е., Resursosberegayushchie tekhnologii vyplavki perspektivnykh liteynykh i deformiruyemykh superzharoprochnykh splavov s uchetom pererabotki vsekh vidov otkhodov [Resource-saving technologies of smelting of promising casting and deformable super-high-strength alloys taking into account processing of all kinds of a waste], Elektrometallurgiya, 2016, No 9, pp. 30–41.

20. Sidorov, V.V., Rigin, V.E., Goryunov, A.V., Min, P.G., Resursosberegayushchiye tekhnologii pererabotki nekonditsionnykh otkhodov liteynykh zharoprochnykh splavov [Resource-saving technologies of processing substandard waste of foundry heat-resistant alloys], Metallurg, 2014, No 5, pp. 35– 39.

21. Povarova, K.B., Drozdov, A.A., Bondarenko, Yu.A., Bazyleva, O.A., Vliyanie napravlennoy kristallizatsii nastrukturu i svoystva monokristallov splava na osnove Ni3Al, legirovannogo W, Mo, Cr i redkozemelnymi elementami [Effect of Directional Crystallization on the Structure and Properties of Single Crystals of an Alloy Based on Ni3Al Doped with W, Mo, Cr, and REE], Metals, 2014, No 4, pp. 35–40.

22. Kablov, E.N., Bondarenko, Yu.A., Echin, A.B., Surova, V.A., Kablov, D.E., Razvitie protsessa napravlennoy kristallizatsii lopatok GTD iz zharoprochnykh i intermetallidnykh splavov s monokristallicheskoy strukturoy[Development of directional crystallization of gas turbine blades from heatresistant and intermetallic alloys with a single-crystal structure], Vestnik Moskovskogo gosudarstvennogo tekhnicheskogo universiteta im. N.E. Baumana. Seriya: Mashinostroenie, 2011, No SP2, pp. 20–25.

23. Bondarenko, Yu.A., Yechin, A.B., Napravlennaya kristallizatsiya zharoprochnogo splava s peremennym upravlyayemym gradiyentom [Directional crystallization of a heat-resistant alloy with a variable controlled gradient], Voprosy Materialovedeniya, 2016, No 3, pp. 50–58.

24. Gerasimov, V.V., Visik, E.M., Tekhnologicheskie aspekty litya detaley goryachego trakta GTD iz intermetalldnykh nikelevykh splavov tipa VKNA splavov s monokristallicheskoy strukturoy [Technological aspects of casting details of the hot GTE traction from intermetallic nickel alloys of the VKNA type of alloys with a single crystal structure], Liteyshchik Rossii, 2012, No 2, p. 19.

25. Kablov, E.N., Bondarenko, Yu.A., Yechin, A.B., Issledovanie vliyaniya peremennogo upravlyaemogo temperaturnogo gradienta na osobennosti struktury, fazovy sostav, svoystva vysokotemperaturnykh zharoprochnykh splavov pri ikh napravlennoy kristallizatsii [Investigation of the influence of a variable temperature gradient on the structural features, phase composition, properties of high-temperature heatresistant alloys with their directional crystallization], Vestnik Moskovskogo gosudarstvennogo tekhnicheskogo universiteta im. N.E. Baumana. Seriya: Mashinostroenie, 2016, No 6, pp.43–61.

26. Bazyleva, O.A., Shestakov, A.V., Arginbaeva, E.G., Turenko, E.Yu., Vozmozhnost povysheniya kharakteristik zharoprochnosti i zharostoykosti konstruktsionnogo intermetallidnogo splava na osnove alyuminida nikelya [Possibility of increasing the characteristics of heat resistance and heat resistance of a structural intermetallic alloy based on nickel aluminide], Metally, 2016, No 1. pp. 93–101.

27. Kablov, E.N., Bazyleva, O.A., Shestakov, A.V., Arginbaeva, E.G., Turenko, E Yu., Patent of the Russian Federation No RU (11) 2 588 949 (13) C1: Alloy based on intermetallic compound Ni3Al and article made therefrom; Date of publication: 07.10.2016, Bull.19.