Features of Relaxation Processes During Martensitic Transformation

Yu. M. Koval’

G.V. Kurdyumov Institute for Metal Physics, NAS of Ukraine, 36 Academician Vernadsky Blvd., UA-03142 Kyiv, Ukraine

Received: 22.02.2005. Download: PDF

The development of the new alloys, which undergo martensitic transformation, with the specified set of physical-mechanical properties cannot be realized without knowledge of the martensitic transformation. The influence on the relaxation process of the elastic stresses is the one way for purposeful controlling by martensitic-transformation parameters. The investigation of the relaxation process during the direct martensitic transformation is the main goal of this paper.

Keywords: martensitic transformations, hysteresis, shape-memory alloys, relaxation processes, elastic stresses.

PACS: 62.40.+i, 65.40.De, 75.80.+q, 81.30.Kf, 81.40.Ef, 81.40.Jj, 83.10.Tv

DOI: https://doi.org/10.15407/ufm.06.02.169

Citation: Yu. M. Koval’, Features of Relaxation Processes During Martensitic Transformation, Usp. Fiz. Met., 6, No. 2: 169—196 (2005) (in Russian), doi: 10.15407/ufm.06.02.169


References (30)  
  1. Kurdyumov G. V., ZhTF, 1948, 18, p. 993.
  2. Kurdyumov G. V., Khandros L. G., DAN SSSR, 1949, 66, p. 211.
  3. Olson G. B., Cohen M., Scr. Met., 1975, 9, p. 1247.
  4. Fridel' Zh. Dislokatsii, M.: Mir, 1967, 643 p.
  5. Guenin G., Morin M., Gobin P. F., Dejonghe W., Delaey L., Scr. Met., 1977, 11, p. 1071.
  6. Belyakov L. I., MiTOM, 1976, 8, p. 2.
  7. Koval' Yu. N., Nemoshkalenko V. V. O prirode martensitnykh prevrashcheniy. K.: Prepr. IMF NANU. 1998, 22 p.
  8. Paskal' Yu. I., Monasevich L. A., Izv.vuzov. Fizika, 1978, 11, p. 98.
  9. Koval' Yu. N., Neganov L. M., Avtorskoe svidetel'stvo SSSR, 1976, No.606894, Avtorskoe svidetel'stvo SSSR, 1977, No. 676045.
  10. Koval' Yu. N., Kondrat'ev S. Yu., Musienko R. Ya., Khandros L. G., Yaroslavskiy G. Ya., FMM, 1980, 50, p. 1326.
  11. Koval' Yu. N., Kolomytsev V. I., Musienko R. Ya., Metallofizika, 1984, 6, p. 96
  12. Chen J. H., Hsu S. S., Clapp P. C., Scr. Met., 1979, 13, p. 781.
  13. Kristian Dzh. Fizicheskoe metallovedenie. M.: Mir. 1968, 227 p.
  14. Varlimont Kh., Deley L., Martensitnye prevrashcheniya v splavakh na osnove medi, serebra i zolota. M.: Nauka. 1980, 205 p.
  15. Khandros L. G., Arbuzova I. A. Sb. Metally, elektrony, reshetka. K.: Naukova Dumka, 1975, p. 109.
  16. Kurdyumov G. V., Lobodyuk V. A., Khandros L. G., Kristallografiya, 1961, 6, p. 210.
  17. Otsuka K., Shimizu K., Trans. JIM, 1974, 15, p. 103.
  18. Wechslur M. S., Lieberman D. S., Read T. A., J. Metals, 1953, 5, p. 1503; Bowels J. S., Mackenzie J. K., Acta Met., 1954, 2, p. 129.
  19. Koval Yu. N., Titiov P. V., Phys. Metals, 1995, 14, No. 11, p. 1226.
  20. Titov P. V., FMM, 1988, 66, No. 3, p. 551.
  21. Klassen-Neklyudova M.V. Mekhanicheskoe dvoynikovanie kristallov. M.: Izd. AN SSSR, 1960, 262 p.
  22. Lyubov B., Roytburd A., DAN SSSR, 1958, 120, p. 1011.
  23. Otani N., Funatsu Y., Ichinose S., Miyazaki S., Otsuka K., Scr. Met., 1983, 17, p. 745.
  24. Koval Yu. N., Monastyrsky G. E., Scr. Met., 1993, 28, p. 41.
  25. Vinnikov L. Ya., Georgieva I. Ya., Maistrenko L. G., Metallofizika, 1974, 55, p. 24.
  26. Schiel E., Safting E., Arch. Eisenhuttenw., 1960, 31, p. 625.
  27. Firstov G. S., Van Humbeeck J., Koval Yu. N., J. Physique IV, 2001, 11, pp. 481–486.
  28. Seo J. W., Schryvers D., Acta Mater., 1998, 46, No. 4, pp. 1165–1175.
  29. Firstov G. S., Van Humbeeck J., Koval Yu. N., Mater. Sci. Eng. A, 2004, 378, 1–2, pp. 2–10. Crossref
  30. Koval Yu. N., Monastyrsky G. E., J. Physique IV, 1995, 5, C8, p. 397.
Cited By (2)
  1. V. A. Lobodyuk, Usp. Fiz. Met. 17, 89 (2016).
  2. I. M. Laptev and O. O. Parkhomenko, Usp. Fiz. Met. 11, 19 (2010).