Structural-scale levels of development of inelastic martensitic deformation during isothermal loading of submicrocrystalline titanium nickelide in premartensitic condition G. P. Bakach, E. F. Dudarev, T. Y. Maletkina, A. B. Skosyrskii
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ArticleSubject(s): мартенситные деформации | никелид титана | предмартенситные состоянияGenre/Form: статьи в журналах Online resources: Click here to access online
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AIP Conference Proceedings Vol. 1683. P. 020015-1-020015-4Abstract: The results are presented of an experimental investigation into the regularities and mechanisms of the development of thermoelastic martensitic transformation in submicrocrystalline alloy Ti49.4Ni50.6 with different ways of thermo-power actions using the methods of optical microscopy in situ and X-ray diffraction. The peculiarities of localization of martensite transformation at the meso- and macroscale levels in this alloy with submicrocrystalline structure are considered. Experimental data on the relay mechanism of propagation of the martensitic transformation are presented. The interrelation between the localization of the martensitic transformation on the meso-and macroscale levels and deformation behavior under isothermal loading alloy Ti49.4Ni50.6 in submicrocrystalline condition are shown and discussed.
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The results are presented of an experimental investigation into the regularities and mechanisms of the development of thermoelastic martensitic transformation in submicrocrystalline alloy Ti49.4Ni50.6 with different ways of thermo-power actions using the methods of optical microscopy in situ and X-ray diffraction. The peculiarities of localization of martensite transformation at the meso- and macroscale levels in this alloy with submicrocrystalline structure are considered. Experimental data on the relay mechanism of propagation of the martensitic transformation are presented. The interrelation between the localization of the martensitic transformation on the meso-and macroscale levels and deformation behavior under isothermal loading alloy Ti49.4Ni50.6 in submicrocrystalline condition are shown and discussed.
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