Articles
New heat-resistant coating for protection against high-temperature oxidation of tur-bine parts made of intermetallic nickel-based superalloy working at 1100–1200°С is developed. Research of heat-resistance, evolution of composition and structure of doped ion-plasma coatings for intermetallic superalloy is made.
2. Inozemcev A.A., Nihamkin M.A., Sandrackij V.L. Osnovy konstruirovanija aviacionnyh dvigatelej i jenergeticheskih ustanovok [Basis for designing aircraft engines and power plants]. M.: Mashinostroenie. 2008. T. 2. S. 159–192.
3. Kablov E.N., Sidorov V.V., Kablov D.E., Rigin V.E., Gorjunov A.V. Sovremennye tehnologii poluchenija prutkovyh zagotovok iz litejnyh zharoprochnyh splavov novogo pokolenija [Modern technologies for bar stock of casting superalloys new generation] //Aviacionnye materialy i tehnologii. 2012. №S. S. 97−105.
4. Kablov E.N., Ospennikova O.G., Vershkov A.V. Redkie metally i redkozemel'nye jelementy – materialy sovremennyh i budushhih vysokih tehnologij [Rare metals and rare earth elements – materials of current and future high-tech] //Trudy VIAM. 2013. №2. St. 01 (viam-works.ru).
5. Kablov E.N., Petrushin N.V., Svetlov I.L., Demonis I.M. Nikelevye litejnye zharoprochnye splavy novogo pokolenija [Casting nickel superalloys new generation] //Aviacionnye materialy i tehnologii. 2012. №S. S. 36–52.
6. Bazyleva O.A., Arginbaeva Je.G., Turenko E.Ju. Zharoprochnye litejnye intermetallidnye splavy [Heat-resistant casting intermetallic alloys] //Aviacionnye materialy i tehnologii. 2012. №S. S. 57–60.
7. Kablov E.N., Bondarenko Ju.A., Echin A.B., Surova V.A., Kablov D.E. Razvitie processa napravlennoj kristallizacii lopatok GTD iz zharoprochnyh i intermetallidnyh splavov s monokristallicheskoj strukturoj [The development process of directional solidification of high-temperature gas turbine engine blades and intermetallic alloys with a single-crystal structure] //Vestnik MGTU im. N.Je. Baumana. Ser. «Mashinostroenie». 2011. №SP2. S. 20–25.
8. Splav na osnove intermetallida Ni3Al [Alloy based on Ni3Al intermetallic]: pat. 2434067 Ros. Federacija; opubl. 01.07.2010.
9. Splav na osnove intermetallida Ni3Al [Alloy based on Ni3Al intermetallic]: pat. 2434068 Ros. Federacija; opubl. 05.10.2010.
10. Zharoprochnyj splav na nikelevoj osnove dlja monokristallicheskogo lit'ja [Superalloy based on nickel single crystal casting]: pat. 2439184 Ros. Federacija; opubl. 05.10.2010.
11. Kablov E.N., Ospennikova O.G., Bazyleva O.A. Materialy dlja vysokoteplonagruzhennyh detalej gazoturbinnyh dvigatelej [Materials for high-thermal components of gas turbine engines] //Vestnik MGTU im. N.Je. Baumana. Ser. «Mashinostroenie». 2011. №SP2. S. 13–19.
12. Kablov E.N., Mubojadzhjan S.A. Zharostojkie i teplozashhitnye pokrytija dlja lopatok turbiny vysokogo davlenija perspektivnyh GTD [Heat-resistant and heat-protective coatings for high-pressure turbine blades looking GTE] //Aviacionnye materialy i tehnologii. 2012. №S. S. 60–70.
13. Kablov E.N., Mubojadzhjan S.A. Ionnoe travlenie i modificirovanie poverhnosti ot-vetstvennyh detalej mashin v vakuumno-dugovoj plazme [Ion etching and surface modification of critical components of machinery on a vacuum arc plasma] //Vestnik MGTU im. N.Je. Baumana. Ser. «Mashinostroenie». 2011. №SP2. S. 149–163.
14. Kablov E.N., Muboyadzhyan S.A. Heat-resistant coatings for the high-pressure turbine blades of promising gtes //Russian metallurgy (Metally). 2012. №1. S. 1–7.
15. Matveev P.V., Budinovskij S.A., Mubojadzhjan S.A., Kos'min A.A. Zashhitnye zharostojkie pokrytija dlja splavov na osnove intermetallidov nikelja [Heat-resistant protective coatings for intermetallic alloys based on nickel] //Aviacionnye materialy i tehnologii. 2013. №2. S. 12–15.
16. Mubojadzhjan S.A., Aleksandrov D.A., Gorlov D.S., Egorova L.P., Bulavinceva E.E. Zashhitnye i uprochnjajushhie ionno-plazmennye pokrytija dlja lopatok i drugih otvetstvennyh detalej kompressora GTD [Protecting and strengthening the ion-plasma coatings for blades and other parts of responsibility compressor GTE] //Aviacionnye materialy i tehnologii. 2012. №S. S. 71–81.
The article describes the main methods of refining and modification of cast aluminum alloys proposed by M.B. Altman. The basic theoretical and scientific-technical provisions are quoted, systematized M.B. Altman. The classification of casting aluminium alloys on purpose were considered, dynamics of their development were shown. Modern casting aluminium alloys with high manufacturability and improved me-chanical properties were presented, as well as perspective directions of development of foundry of aluminium alloys in the coming years.
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19. Chirkov E.F. Temp razuprochnenija pri nagrevah – kriterij ocenki zharoprochnosti konstrukcionnyh splavov sistem Al–Cu–Mg i Al–Cu [Temp softening when heated – evaluation criterion resistance of building systems alloys Al–Cu–Mg and Al–Cu] //Aviacionnye materialy i tehnologii. 2013. №S2. S. 11–19.
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The description of high-temperature tensile strength determination of alumina single crystal fibers in gold image furnace is presented in this paper.
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Nano-structured silicon, which is promising to doping of silicon carbide-based high-temperature composite materials, synthesized by the chemical vapor deposition method, using various fractions of perchlorosilanes SinCl2n+2 as precursors. The effect of chemical nature of the starting materials and process parameters (temperature steam and thermal degradation, exposure time) on the characteristics of the product was studied.
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