Regularities interaction of the alloying elements and nanostructured condition formation of casting magnesium alloys Mg–Zn–Zr system

Uridiya Z.P., Mukhina I.Y.
Uridiya Z.P., Mukhina I.Y. Regularities interaction of the alloying elements and nanostructured condition formation of casting magnesium alloys Mg–Zn–Zr system // Proceedings of VIAM. 2017. No. 6. DOI: 10.18577/2307-6046-2017-0-6-1-1. URL: https://test.viam.ru/en/journal/2017/6/1
Keywords
magnesium alloy, the alloying elements, heat treatment, ultimate resistance, corrosion resistance.
Abstract

The given article presents the results of the potentially productive magnesium casting alloy elaboration for the new-generation aerospace engineering. On the basis of the analysis of the general regularities of interaction of the alloying elements with magnesium are chosen components of the alloy, which form the nanostructured state and increase strength ratio. There are compositions of alloys offered and investigated. By results of differential scanning calorimetry (DSC) are corrected the homogenization modes and aging of the studied compositions. There is Influence of the quantitative content of the alloying elements: Zn, Cd, Nb, Ti, Bi, In, REE on the mechanical and corrosion characteristic of the studied alloy compositions examined. There is Influence of the chemical composition and structural alloy components on mechanical properties and magnesium ligature Mg–Zn–Zr corrosion resistance established.

Reference list
  1. Kablov E.N., Startsev O.V., Medvedev I.M. Obzor zarubezhnogo opyta issledovanij korrozii i sredstv zashhity ot korrozii [Review of international experience on corrosion and corrosion protection] // Aviacionnye materialy i tehnologii. 2015. №2 (35). S. 76–87. DOI: 10.18577/2071-9140-2015-0-2-76-87.
  2. Antipov V.V. Strategiya razvitiya titanovyh, magnievyh, berillievyh i alyuminievyh splavov [Strategy of development of titanium, magnesium, beryllium and aluminum alloys] // Aviacionnye materialy i tehnologii. 2012. №S. S. 157–167.
  3. Antipov V.V., Kolobnev N.I., Hohlatova L.B. Razvitie alyuminijlitievyh splavov i mnogostupenchatyh rezhimov termicheskoj obrabotki [Development aluminum lithium alloys and multistage modes of thermal processing] // Ibid. S. 183–195.
  4. Nochovnaya N.A., Ivanov V.I., Alekseev E.B., Kochetkov A.S. Puti optimizacii ekspluatacionnyh svojstv splavov na osnove intermetallidov titana [Ways of optimization of operational properties of alloys on the basis of titanium intermetallic compound] // Ibid. 2012. №S. S. 196–206.
  5. Muhina I.Yu. Issledovanie metallicheskih sistem na osnove magniya i razrabotka principov sozdaniya korrozionnostojkih magnievyh splavov [Research of metal systems on the basis of magnesium and development of principles of creation of corrosion-resistant magnesium alloys] // MiTOM. 2014. №1. S. 8–12.
  6. Splav na osnove magniya i izdeliya, vypolnennye iz nego: pat. 2198234 Ros. Federaciya [Magnesium-based alloy and the products which have been executed of it: pat. 2198234 Rus. Federation]; opubl. 10.02.03, Byul. №4.
  7. Muhina I.Yu., Duyunova V.A., Uridiya Z.P. Perspektivnye litejnye magnievye splavy [Perspective cast magnesium alloys] // Litejnoe proizvodstvo. 2013. №5. S. 2–5.
  8. Kablov E.N., Bondarenko Yu.A., Kablov D.E. Osobennosti struktury i zharoprochnyh svojstv monokristallov 001> vysokorenievogo nikelevogo zharoprochnogo splava, poluchennogo v usloviyah vysokogradientnoj napravlennoj kristallizacii [Features of structure and heat resisting properties of monocrystals of 001> high-rhenium nickel hot strength alloys received in the conditions of high-gradient directed crystallization] // Aviacionnye materialy i tehnologii. 2011. №4. S. 25–31.
  9. Kablov E.N., Ospennikova O.G., Vershkov A.V. Redkie metally i redkozemelnye elementy – materialy sovremennyh i budushhih vysokih tehnologij [Rare metals and rare earth elements – materials of modern and future high technologies] // Trudy VIAM: elektron. nauch.-tehnich. zhurn. 2013. №2. St. 01. Available at: http://www.viam-works.ru (accessed: September 30, 2016).
  10. Morozova G.I., Muhina I.Yu. Nanostrukturnoe uprochnenie litejnyh magnievyh splavov sistemy Mg–Zn–Zr [Nanostructural hardening of cast magnesium alloys of Mg-Zn-Zr system] // MiTOM. 2011. №11. S. 3–7.
  11. Timonova M.A. Korroziya i zashhita magnievyh splavov [Corrosion and protection of magnesium alloys]. M. Mashinostroenie, 1964. S. 295–300.
  12. Muhina I.Yu. Struktura i svojstva novyh litejnyh magnievyh splavov [Structure and properties of new cast magnesium alloys] // Litejnoe proizvodstvo. 2011. №12. S. 12–14.
  13. Sposoby polucheniya magnievogo splava : pat. 2188873 Ros. Federaciya [Ways of receiving magnesium alloy: pat. 2188873 Rus. Federation]; opubl. 10.09.02, Byul. №25.
  14. Volkova E.F., Muhina I.Yu. Novye materialy na magnievoj osnove i vysokoresursnye tehnologii ih proizvodstva [New materials on magnesian basis and high-resource technologies of their production] // Tehnologiya legkih splavov. 2007. №2. S. 28–34.
  15. Sadkov V.V., Laponov Yu.L. i dr. Perspektivnye usloviya primeneniya magnievyh splavov v samoletah OAO «Tupolev» [Perspective conditions of application of magnesium alloys in JSC Tupolev airplanes] // Metallurgiya mashinostroeniya. 2007. №4. S. 19–23.
  16. Muhina I.Yu., Bobryshev B.L., Antipov V.V., Koshelev A.O., Bobryshev D.B. Struktura i svojstva splavov sistemy Mg–Al–Zr pri lit'e v kokil' i formy iz HTS [Structure and properties of alloys of Mg-Al-Zr system at chill casting and forms from HTS] // Litejnoe proizvodstvo. 2014. №8. S. 6–10.
  17. Muboyadzhyan S.A., Lutsenko A.N., Aleksandrov D.A., Gorlov D.S. Issledovanie vozmozhnosti povysheniya sluzhebnyh harakteristik lopatok kompressora GTD metodom ionnogo modificirovaniya poverhnosti [Research of possibility of increase of office characteristics of compressor blades of GTE by method of ionic modifying of surface] // Trudy VIAM: elektron. nauch-tehnih. zhurn. 2013. №1. St. 02. Available at: http://viam-works.ru (accessed: September 25, 2016)
  18. Kablov E.N., Morozov G.A., Krutikov V.N., Muravskaya N.P. Attestaciya standartnyh obrazcov sostava slozhnolegirovannyh splavov s primeneniem etalona [Certification of standard samples of structure of complex-alloyed alloys using standard] // Aviacionnye materialy i tehnologii. 2012. №2. S. 9–11.
  19. Muhina I.Yu., Duyunova V.A., Frolov A.V., Uridiya Z.P. Vliyanie legirovaniya RZM na zharoprochnost litejnyh magnievyh splavov [Influence of alloying of REM on thermal stability of cast magnesium alloys] // Metallurgiya mashinostroeniya. 2014. №5. S. 34–38.
  20. Uridiya Z.P., Muhina I.Yu. O germetizacii otlivok iz magnievyh i alyuminievyh splavov [About sealing of otlivka from magnesium and aluminum alloys] // Litejnoe proizvodstvo. 2012. №2. S. 34–38.
  21. Muhina I.Yu., Uridiya Z.P. Magnij – osnova sverhlegkih materialov [Magnesium is the base of extralight materials] // Metallurgiya mashinostroeniya. 2005. №6. S. 29–31.
  22. Sidorov V.V., Rigin V.E., Zaitsev D.E., Goryunov A.V. Formirovanie nanostrukturirovannogo sostoyaniya v litejnom zharoprochnom splave pri mikrolegirovanii ego lantanom [Forming of the nanostructured condition in foundry hot strength alloy at microalloying its lanthanum] // Trudy VIAM: elektron. nauch.-tehnich. zhurn. 2013. №1. St. 01. Available at: http://www.viam-works.ru (accessed: September 26, 2016).
  23. Muhina I.Yu., Koshelev A.O., Leonov A.A., Bobryshev D.B. Ustranenie litejnyh defektov otlivok iz magnievyh splavov metodom zavarki [Elimination of foundry defects of otlivka from magnesium alloys welding method] // Vse materialy. Enciklopedicheskij spravochnik. 2016. №2. S. 22–27.
  24. 24 Frolov A.V., Muhina I.Yu., Leonov A.A., Uridiya Z.P. Vliyanie legirovaniya redkozemelnymi metallami na svojstva i strukturu litejnogo magnievogo splava eksperimentalnogo sostava sistemy Mg–Zr–Zn–Y–Nd [An influence of rare-earth metals doping on properties and structure of the experimental Mg–Zr–Zn–Y–Nd casting magnesium alloy] // Trudy VIAM: elektron. nauch.-tehnich. zhurn. 2016. №3. St. 03. Available at: http://www.viam-works.ru (accessed: September 30, 2016). DOI: 10.18577/2307-6046-2016-0-3-3-3.
  25. Leonov A.A., Duyunova V.A., Stupak E.V., Trofimov N.V. Lite magnievyh splavov v razovye formy, poluchennye novymi metodami [Casting of magnesium alloys in disposable moulds produced by new methods] // Trudy VIAM: elektron. nauch.-tehnich. zhurn. 2014. №12. St. 01. Available at: http://www.viam-works.ru (accessed: September 30, 2016). DOI: 10.18577/2307-6046-2014-0-12-1-1.
  26. Uridiya Z.P., Mukhina I.Y., Frolov A.V., Leonov A.A. Issledovanie mikrostruktury magnievo-cirko-nievoj ligatury i zharoprochnogo litejnogo magnievogo splava ML10 [Study of microstructure of magnesium-zirconium master alloy and heat-resistant magnesium alloy ML10] // Trudy VIAM: elektron. nauch.-tehnich. zhurn. 2015. №10. St. 06. Available at: http://www.viam-works.ru (accessed: September 28, 2016). DOI: 10.18577/2307-6046-2015-0-10-6-6.
  27. Kablov E.N. Innovacionnye razrabotki FGUP «VIAM» GNC RF po realizacii «Strategicheskih napravlenij razvitiya materialov i tehnologij ih pererabotki na period do 2030 goda» [Innovative developments of FSUE «VIAM» SSC of RF on realization of «Strategic directions of the development of materials and technologies of their processing for the period until 2030»] // Aviacionnye materialy i tehnologii. 2015. №1 (34). S. 3–33. DOI: 10.18577/2071-9140-2015-0-1-3-33.