Open Access
MATEC Web Conf.
Volume 224, 2018
International Conference on Modern Trends in Manufacturing Technologies and Equipment (ICMTMTE 2018)
Article Number 03020
Number of page(s) 10
Section Materials science
Published online 30 October 2018
  1. Osipyan Yu. A., Mogutnov B.M., Gleser A.M. Izvestiya RAN, Ser.phis. 66 1230 2002 [Google Scholar]
  2. Firstov S.A. et al., In the collection. Modern problems of physical material science. Proceedings of IPM NASU. 18 (Kiev: IPM, 2009) p. 140 [Google Scholar]
  3. Fortov V.E. Extreme states of matter (M.: Fizmatlit, 2009) [Google Scholar]
  4. Cahn R. W. The Coming of Materials Science (Pergamon Mater., Sci, 2001) [Kan R.U. Material Science Development (N. Novgorod: N.I .Lobachevsky University Publishing Center, 2011)] [Google Scholar]
  5. Amorphous metal alloys, coll. scientific works (Edited by F.E. Lyuborskii) (Moscow: Metallurgy, 1987) [Google Scholar]
  6. Filonov M.F., Anikin Yu.A., Levin Yu. B. Theoretical foundations for the production of amorphous and nanocrystalline alloys by the method of superfast hardening (M .: MISiS, 2006) [Google Scholar]
  7. Zolotukhin I.V., Kalinin Yu. Yu. UFN 160 75 1990 [CrossRef] [Google Scholar]
  8. Sudzuki K., Fujimori X., Hashimoto K. Amorphous metals. (Moscow: Metallurgy, 1987) [Google Scholar]
  9. Glezer A.M., Potekaev A.I., Cheretaeva A.O. Thermal and time stability of amorphous alloys. (Cambrige: CISP; N-Y .: Taylor & Francis, 2017). [CrossRef] [Google Scholar]
  10. Inoue A. in Amorphous and nanocrystalline materials: preparation, properties and applications (Advances in Materials Research) (Eds A. Inoue, K. Hashimoto) (Berlin, Heidelberg, New York: Springer-Verlag, 2001). p.1 [Google Scholar]
  11. Frenkel I. and Introduction to the Theory of Metals (L .: Nauka, 1972) [Google Scholar]
  12. Gleser A.M. Russian Chemical Journal XLVI 5 57 2002 [Google Scholar]
  13. Glezer A.M., Shurygina N.A. Amorphous-nanocrystalline alloys. (Moscow: Fizmatlit, 2014). [Google Scholar]
  14. Gleser A.M. et al., Mechanical Behavior of Amorphous Alloys (Novokuznetsk: Izd-vo SibGIU, 2006) [Google Scholar]
  15. Glezer A.M., Permyakova I.E. Nanocrystals hardened from a melt. (Moscow: Fizmatlit, 2012). [Google Scholar]
  16. Tretyakov Yu. D. Bulletin of the Russian Academy of Sciences 77 1 3 2007 [Google Scholar]
  17. Glezer A.M., Betekhtin V. I. FTT 40 85 1998 [Google Scholar]
  18. Glezer A.M. J. Phys. IV 8, 175 1998 [Google Scholar]
  19. Glezer A.M. et al. Russian Metal. (Metally) 4, 274 2015/ [CrossRef] [Google Scholar]
  20. Zaychenko S.G. The patent of the Russian Federation No. 2154869, 1999. [Google Scholar]
  21. Glezer A.M., Permyakova I .E., Manaenkov S. E. Reports of the Russian Academy of Sciences. 418, 181 2008 [Google Scholar]
  22. Glezer A.M., et al. Patent of the Russian Federation No. 2001457, 1089 [Google Scholar]
  23. Glezer A.M. et al. Bulletin Russian Acad. Sci: Physics. 77 1391 2013. [Google Scholar]
  24. Gleser A.M. et al., Reports of the Russian Academy of Sciences 407 478 2006 [Google Scholar]
  25. Glezer A. M. et al. J. Nanoparticle Research 5, 551 2003 [CrossRef] [Google Scholar]
  26. Shurygin N.A., et al. Proceedings of the Russian Academy of Sciences, ser. phys. 76 52 2012 [Google Scholar]
  27. Pozdnyakov V. A., Glezer A. M. Nanostruct. Mater. 6, 767 1995 [CrossRef] [Google Scholar]
  28. Glezer A.M, Pozdnyakov V.A. ZhTF 21 31 1995 [Google Scholar]
  29. Gleser A.M. Deformation and destruction of materials 2 1 2010 [Google Scholar]
  30. Gleser A.M., Pozdnyakov V.A. FTT 47 793 2005 [Google Scholar]
  31. Andreevskii R.A., Glezer A.M.UFN 179 337 2009 [CrossRef] [Google Scholar]
  32. Glezer A.M., Kozlov E.V. et al. Plastic deformation of nanostructured materials. (Cambrige: CISP; N-Y .: Taylor & Francis, 2017). [CrossRef] [Google Scholar]
  33. Utyashev F.Z., Raab G.I. Deformational methods for obtaining and processing ultrafine-grained and nanostructured materials. (Ufa: Guillem, 2013). [Google Scholar]
  34. Gleser A.M., Gromov V.E. Nanocrystals created by extreme effects (Novokuznetsk: Izdatelstvo “Inter-Kuzbass” 2010) [Google Scholar]
  35. Edneral A.F., et al. Proceedings of the Russian Academy of Sciences, ser. phys. 69 1350 2005 [Google Scholar]
  36. Rybin V. V. Large plastic deformation and destruction of metals (M .: Metallurgy, 1986) [Google Scholar]
  37. Verst, S.A., et al., Izv. Universities. Physics 3 41 2002 [Google Scholar]
  38. Gapontsev V.L., Kondratjev V. V. Reports of the RAS 385 684 2002 [Google Scholar]
  39. Gleser A.M., Metlov L.S. FTT 52 1090 2010. [Google Scholar]
  40. Gleser A.M., Pozdnyakov V.A. Deformation and destruction of materials 4 9 2005 [Google Scholar]
  41. Likhachev V.A., et al., FMM 45 1 163 1978 [Google Scholar]
  42. Glezer A.M., Sundeev R.V., Shalimova A. V. Reports of the RAS 440 39 2011 [Google Scholar]
  43. Glezer A.M., et al. Material Science 12 3 2007 [Google Scholar]
  44. Starcev V.I., Ilyichev V.Ya., Pustovalov V.V. Plasticity and strength of metals and alloys at low temperatures. (Metallurgy 1975) [Google Scholar]
  45. Glezer AM et al. Deformation and destruction of materials 10 23 2011 [Google Scholar]
  46. Gleser, A.M. et al., Izv. RAS, ser. phys. 73 1310 2009. [Google Scholar]
  47. Glezer A.M., et al. Patent of the Russian Federation No. 2391414, 2008. [Google Scholar]
  48. Glezer A.M., Shurygina N.A. et al. J. Mater. Sci. Technol. (31 1 91, 2015). [CrossRef] [Google Scholar]

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