EFFECT OF THE PRECIPITATION HARDENING ON REGULARITIES OF PLASTIC DEFORMATION AND FRACTURE MODE OF V-ALLOYED HIGH NITROGEN AUSTENITIC STEEL


Cite item

Full Text

Abstract

Nitrogen alloying of austenitic steels increases their corrosion resistance and improves mechanical properties. During heat treatment, high-nitrogen austenitic steels tend to the precipitation hardening and the increase of strength characteristics. In the current paper, the authors studied the effect of the duration of age-hardening at the temperatures of 700 °С and 800 °С on the structure, phase composition, plastic flow behavior, and fracture mechanisms of V-alloyed high nitrogen chrome-manganese austenitic Fe-19Cr-22Mn-1.5V-0.3C-0.86N (mass %) steel. The study revealed that after water-quenching at 1200 °С, the specimens possess the high strength properties, ductility and contain large (300-500 nm) (V,Cr)(N,C) particles. Aging at temperatures of 700 °С and 800 °С facilitates complex reactions of austenite discontinuous decomposition with the Cr2N-plate formation in grains and continuous decomposition with the formation of vanadium nitride-based particles in austenite. During the long-term aging (50 h at 700 °C and 10 h at 800 °C), the intermetallic σ-phase appears in specimens. At age-hardening, the observed phase transformations cause the changes in macro- and micro-mechanism of fracture in the specimens of steel under the study. In the initial state, the specimens show mainly the ductile transgranular fracture. After age-hardening, the fracture mechanism changes into the mixed mechanism with the elements of brittle intergranular and ductile transgranular fractures. When increasing the duration of aging and implementation of complex reactions of decomposition of solid solution, the specimens are fractured by the quasi-cleavage mechanism. The specimens aged at temperatures of 700 °С and 800 °С have quite similar precipitation hardening mechanisms, though the increase in aging temperature leads to the rising of the decomposition rate of solid solution. The sequence of transformations described above and the corresponding sequence of changes in the mechanisms of steel fracture are implemented faster when increasing the aging temperature.

About the authors

A. S. Mikhno

National Research Tomsk Polytechnic University; Institute of Strength Physics and Materials Science of Siberian branch of Russian Academy of Sciences

Author for correspondence.
Email: nastia.mihno@yandex.ru
ORCID iD: 0000-0002-9996-914X

student, engineer of the Laboratory of physics of structural transformations

Russian Federation

M. Y. Panchenko

Institute of Strength Physics and Materials Science of Siberian branch of Russian Academy of Sciences

Email: panchenko.marina4@gmail.com
ORCID iD: 0000-0003-0236-2227

postgraduate student, junior researcher of the Laboratory of local metallurgy in additive technologies

Russian Federation

G. G. Maier

Institute of Strength Physics and Materials Science of Siberian branch of Russian Academy of Sciences

Email: galinazg@yandex.ru
ORCID iD: 0000-0003-3043-9754

PhD (Physics and Mathematics), researcher of the Laboratory of physics of structural transformations

Russian Federation

V. A. Moskvina

Institute of Strength Physics and Materials Science of Siberian branch of Russian Academy of Sciences

Email: valya_moskvina@mail.ru
ORCID iD: 0000-0002-6128-484X

postgraduate student, junior researcher of the Laboratory of local metallurgy in additive technologies

Russian Federation

E. V. Melnikov

Institute of Strength Physics and Materials Science of Siberian branch of Russian Academy of Sciences

Email: melnickow-jenya@yandex.ru
ORCID iD: 0000-0001-8238-6055

junior researcher of the Laboratory of local metallurgy in additive technologies

Russian Federation

S. V. Astafurov

Institute of Strength Physics and Materials Science of Siberian branch of Russian Academy of Sciences

Email: svastafurov@gmail.com
ORCID iD: 0000-0003-3532-3777

PhD (Physics and Mathematics), senior researcher of the Laboratory of physics of structural transformations

Russian Federation

E. G. Astafurova

Institute of Strength Physics and Materials Science of Siberian branch of Russian Academy of Sciences

Email: elena.g.astafurova@gmail.com
ORCID iD: 0000-0002-1995-4205

Doctor of Sciences (Physics and Mathematics), leading researcher of the Laboratory of physics of structural transformations

Russian Federation

References

Supplementary files

Supplementary Files
Action
1. JATS XML

Copyright (c)



This website uses cookies

You consent to our cookies if you continue to use our website.

About Cookies