Effect of alloying and thermoplastic treatment on the phase composition and properties of corrosion-resistant steels with metastable austenite / Maltseva L.A., Sharapova V.A., Maltseva T.V., Gladkovskii S.V., Levina A.V. // Metal Science and Heat Treatment. - 2012. - V. 53, l. 11-12. - P. 529-537.

ISSN:

00260673

Type:

Article

Abstract:

Special features of formation of structure and properties of high-alloy corrosion-resistant steels with different contents of the main components are studied after hardening from various temperatures and deformation with various degrees of reduction. © 2012 Springer Science + Business Media, Inc.

Author keywords:

5-ferrite; Alloying; Austenite; Ductility; Intermetallics; Martensite; Phase composition; Strength; Structure

Index keywords:

5-ferrite; Corrosion-resistant steel; Metastable austenite; Strength; Structure and properties; Thermoplastic treatment; Alloying; Austenite; Corrosion resistance; Ductility; Intermetallics; Martensit

DOI:

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https://www.scopus.com/inward/record.uri?eid=2-s2.0-84862082890&partnerID=40&md5=26a68a98d9838ea156f3fae455ed6bb1

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Другие поля

Поле	Значение
Link	https://www.scopus.com/inward/record.uri?eid=2-s2.0-84862082890&partnerID=40&md5=26a68a98d9838ea156f3fae455ed6bb1
Affiliations	Ural Federal University, Russia B. N. Eltsyn, Ekaterinburg, Russian Federation; Institute for Mechanical Engineering, Ural Branch, Russian Academy of Sciences, Ekaterinburg, Russian Federation
Author Keywords	5-ferrite; Alloying; Austenite; Ductility; Intermetallics; Martensite; Phase composition; Strength; Structure
References	(2005) Byull. Izobr. Polezn. Modeli, (15). , RF Patent No. 2252977, May 25; Maltseva, L.A., Ozerets, N.N., Grachev, S.V., A study of structure formation in metastable austenitic steel 03Kh14N11K5M2YuT under the action of deformation (2008) Materialovedenie, (10), pp. 14-18; Maltseva, L.A., Zavalishin, V.A., Mikhailov, S.B., Properties of metastable steel 03Kh14N11K5M2YuT after thermoplastic treatment (2009) Metalloved. Term. Obrab. Met., (11), pp. 45-50; Bratukhin, A.G., Demchenko, O.F., Dolzhnikov, N.N., Krivonogov, G.S., (2006) High-strength Corrosion-Resistant Steels for Modern Aviation, p. 656. , in Russian, Izd. MAI, Moscow; Botvina, L.R., (2008) Fracture: Kinetics, Mechanisms, General Laws, p. 334. , in Russian, Nauka, Moscow; Potak, Ya.M., (1972) High-strength Steels. Ser. Advances in Modern Metals Science, p. 208. , in Russian, Metallurgiya, Moscow; Maltseva, L.A., Noskova, N.I., Maltseva, T.V., Evolution of structure and phase transformations in metastable austenitic steel under severe plastic deformation (2009) Fiz. Tekh. Vysok. Davl., 19 (1), pp. 83-91; Alekseeva, N.G., Barseg'yan, L.V., Blinov, V.M., Rakhshtadt, A.G., New sparingly alloyed nonmagnetic chromium-manganese-base steels for resilient members (1987) High-strength Austenitic Steels, pp. 17-25. , in Russian, Nauka, Moscow
Correspondence Address	Maltseva, L.A.; Ural Federal University, Russia B. N. Eltsyn, Ekaterinburg, Russian Federation; email: mla44@mail.ru
Language of Original Document	English
Abbreviated Source Title	Met. Sci. Heat Treat.
Source	Scopus