Modern technologies of plastic working of metals

Razyvaev E.I., Moiseev N.V., Kapitanenko D.V., Bubnov M.V.
Razyvaev E.I., Moiseev N.V., Kapitanenko D.V., Bubnov M.V. Modern technologies of plastic working of metals // Proceedings of VIAM. 2015. No. 2. DOI: 10.18577/2307-6046-2015-0-2-3-3. URL: https://test.viam.ru/en/journal/2015/2/3
Abstract

Modern principles and approaches to development of processing procedures for manu-facture of wrought billets of disks and blades from heat-resistant nickel, titanium and other alloys for the purpose to achieve an optimum combination of operational and processing characteristics were described in the paper. Isothermal forging of disks in a special oxida-tion-resistant stamping tool without the use of a vacuum camera was considered.

Reference list
  1. Kablov E.N. Strategicheskie napravlenija razvitija materialov i tehnologij ih perera-botki na period do 2030 goda [Strategic directions of development of materials and technologies to process them for the period up to 2030] //Aviacionnye materialy i tehnologii. 2012. №S. S. 7–17.
  2. Kablov E.N. Shestoj tehnologicheskij uklad [Sixth technological way] //Nauka i zhizn'. 2010. № 4. S. 2–7.
  3. Kablov E.N., Ospennikova O.G., Lomberg B.S. Kompleksnaja innovacionnaja tehnologija izotermicheskoj shtampovki na vozduhe v rezhime sverhplastichnosti diskov iz superzharoprochnyh splavov [Integrated innovative technology isothermal forging in air superplasticity drive from superzharoprochnyh alloys] //Aviacionnye materialy i tehnologii. 2012. №S. S. 129–141.
  4. Sposob izgotovlenija shtampovok diskov iz slitkov vysokogradientnoj kristallizacii iz nikelevyh splavov [A method of manufacturing forgings from ingots high-gradient drives the crystallization of nickel alloys]: pat. 2389822 Ros. Federacija; opubl. 29.04.2009.
  5. Morozova G.I. Zakonomernost' formirovanija himicheskogo sostava γ′/γ-matricy mnogokomponentnyh nikelevyh splavov [Pattern formation of the chemical composition of γ'/γ-matrix multi-nickel alloys] //DAN. 1991. T. 320. №6. S. 1413–1416.
  6. Sposob poluchenija izdelija iz deformiruemogo zharoprochnogo nikelevogo splava [A method of manufacturing a heat-resistant nickel alloy wrought]: pat. 2387733 Ros. Federacija; opubl. 31.03.2009.
  7. Lomberg B.S., Ovsepjan S.V., Bakradze M.M., Mazalov I.S. Vysokozharoprochnye deformiruemye nikelevye splavy dlja perspektivnyh gazoturbinnyh dvigatelej i gazoturbinnyh ustanovok [Highly heat resistant wrought nickel alloys for advanced gas turbine engines and gas turbines] //Vestnik MGTU im. N.Je. Baumana. Ser. «Mashinostroenie». 2011. №SP2. S. 98–103.
  8. Solncev S.S., Rozenenkova V.A. Zashhitnye tehnologicheskie pokrytija na osnove stekla dlja termicheskoj obrabotki stalej i splavov [Protective technological coatings based on heat treatment of glass and steel alloys] //Steklo i keramika. 2006. №11. S. 29–33.
  9. Kablov E.N., Lomberg B.S., Ospennikova O.G. Sozdanie sovremennyh zharoprochnyh mate-rialov i tehnologij ih proizvodstva dlja aviacionnogo dvigatelestroenija [The creation of modern high-temperature materials and production technologies for aviation engine] //Kryl'ja Rodiny. 2012. №3–4. S. 34–38.
  10. Figlin S.Z., Bojcov V.V., Kalpin Ju.G., Kaplin Ju.I. Izotermicheskoe deformirovanie metallov [Isothermal deformation of metals]. M.: Mashinostroenie. 1978. 239 s.
  11. Lomberg B.S., Ovsepjan S.V., Bakradze M.M. Novyj zharoprochnyj nikelevyj splav dlja diskov gazoturbinnyh dvigatelej (GTD) i gazoturbinnyh ustanovok (GTU) [New heat-resistant nickel alloy disks of gas turbine engines (GTE) and gas turbines (GT)] //Materialovedenie. 2010. №7. S. 24–28.
  12. Ponomarenko D.A., Moiseev N.V., Skugorev A.V. Proizvodstvo diskov GTD iz zharoprochnyh splavov na izotermicheskih pressah [Production of GTE disks of superalloys isothermal presses] //Aviacionnye materialy i tehnologii. 2013. №1. S. 13–16.
  13. Skugarev A.V., Burhanova A.A., Nochovnaja N.A., Izotova A.Ju. Jeffektivnost' primenenija izotermicheskoj deformacii pri izgotovlenii shtampovok iz titanovyh splavov [Efficacy of isothermal deformation in the manufacture of titanium alloy forgings] //Titan. 2013. №1(39). S. 31–34.
  14. Razuvaev E.I., Lebedev D.Ju., Bubnov M.V. Formirovanie ul'tramelkozernistoj i nanorazmernoj struktury v metallah i splavah metodami deformacii [Formation of ultrafine and nano-sized structures in metals and alloys by deformation] //Aviacionnye materialy i tehnologii. 2010. №3. S. 3–8.
  15. Ponomarenko D.A., Moiseev N.V., Skugorev A.V. Jeffektivnaja tehnologija izgotovlenija diskov GTD iz zharoprochnyh nikelevyh splavov [Effective manufacturing technology drives a turbine engine from heat-resistant nickel alloys] //Kuznechno-shtampovochnoe proizvodstvo. 2013. №10. S. 13–17.
  16. Lomberg B.S., Ovsepjan S.V., Bakradze M.M., Mazalov I.S. Vysokotemperaturnye zharoprochnye nikelevye splavy dlja detalej gazoturbinnyh dvigatelej [High-temperature heat-resistant nickel alloys for turbine engines parts] //Aviacionnye materialy i tehnologii. 2012. №S. S. 52–57.
  17. Lomberg B.S., Ovsepjan S.V., Bakradze M.M. Osobennosti legirovanija i termicheskoj obrabotki zharoprochnyh nikelevyh splavov dlja diskov gazoturbinnyh dvigatelej novogo pokolenija [Features alloying and heat treatment of heat-resistant nickel alloys for disks of gas turbine engines of the new generation] //Aviacionnye materialy i tehnologii. 2010. №2. S. 3–8.
  18. Razuvaev E.I., Kapitanenko D.V. Vlijanie termomehanicheskoj obrabotki na strukturu i svojstva austenitnyh stalej [Effect of thermomechanical treatment on the structure and properties of austenitic steels] //Trudy VIAM. 2013. №5. St. 01 (viam-works.ru).