Effect of the state of stress on the strain-induced martensite formation in 03Kh14N11K5M2YuT steel / Maltseva L.A., Loginov Y.N., Maltseva T.V., Sharapova V.A. // Russian Metallurgy (Metally). - 2013. - V. 2013, l. 9. - P. 706-711.

ISSN:

00360295

Type:

Article

Abstract:

The structural changes that occur in a metastable austenitic Fe-Cr-Ni-based steel during cold plastic deformation by drawing and tension are analyzed. A relation between the structure of the steel and its mechanical and magnetic properties is established. It is concluded that the stress state scheme considerably affects the rate of martensite formation. © 2013 Pleiades Publishing, Ltd.

Author keywords:

Index keywords:

Austenitic; Cold plastic deformation; Martensite Formation; State of stress; Strain-induced martensite; Stress state; Metallurgy; Metals; Metal drawing

DOI:

10.1134/S0036029513090097

Смотреть в Scopus:

https://www.scopus.com/inward/record.uri?eid=2-s2.0-84891297917&doi=10.1134%2fS0036029513090097&partnerID=40&md5=ffec19de5e7d8135d72514fd802fd800

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Link	https://www.scopus.com/inward/record.uri?eid=2-s2.0-84891297917&doi=10.1134%2fS0036029513090097&partnerID=40&md5=ffec19de5e7d8135d72514fd802fd800
Affiliations	Ural Federal University (UrFU), Yekaterinburg, Russian Federation
References	Maltseva, L.A., Grachev, S.V., Maltseva, T.V., Yurin, S.V., (2005), RF Patent 2252977; Maltseva, L.A., Sharapova, V.A., Maltseva, T.V., (2011), RF Patent 2430187; Mal'tseva, L.A., Zavalishin, V.A., Mikhailov, S.B., Properties of metastable steel 03Kh14N11K5M2YuT after thermoplastic treatment (2009) Metalloved. Term. Obrab. Met., 51 (11-12), pp. 557-562; Mal'tseva, L.A., Sharapova, V.A., Maltseva, T.V., Effect of alloying and thermoplastic treatment on the phase composition and properties of corrosion-resistant steels with metastable austenite Metalloved. Term. Obrab. Met., 53 (11-12), pp. 529-537; Grachev, V.V., Gromov, A.V., Tsellermaer, V.Y., The evolution of dislocation substructures in small and medium-carbon steels at drawing (2004) Vest. Samar. GTU, 27, pp. 123-129; Beese, A.M., Mohr, D., Effect of stress triaxiality and Lode angle on the kinetics of strain-induced austenite-to-martensite transformation (2011) Acta Materialia, 59, pp. 2589-2600; Stringfellow, R.G., Parks, D.M., Olson, G.B., A constitutive model for transformation plasticity accompanying strain-induced martensitic transformations in metastable austenitic steels (1992) Acta Metallurgica Et Materialia, 40 (7), pp. 1703-1716; Han, H.N., Lee, C.G., Oh, C.-S., A model for deformation behavior and mechanically induced martensitic transformation of metastable austenitic steel (2004) Acta Materialia, 52, pp. 5203-5214; Zhuang, Z.-H., Lee, S.-J., Lee, Y.-K., Effects of applied stresses on martensite transformation in AISI4340 steel (2007) J. Iron Steel Res. Int., 14 (6), pp. 63-67; Shelekhov, E.V., Sviridova, T.A., Programs for X-ray analysis of polycrystals (2001) Met. Sci. Heat Treatment, 42 (7), pp. 309-313; Spencer, K., Embury, J.D., Conlon, K.T., Strengthening via the formation of strain-induced martensite in stainless steels (2004) Mater. Sci. Eng., Ser. A, 387-389, pp. 873-881; Chin, R.K., Steif, P.S., A computational study of strain inhomogeneity in wire drawing (1995) Int. J. Mach. Tools Manufact., 35 (8), pp. 1187-1198
Correspondence Address	Maltseva, L. A.; Ural Federal University (UrFU), Yekaterinburg, Russian Federation; email: mla44@mail.ru
Language of Original Document	English
Abbreviated Source Title	Russ. Metall. (Metally)
Source	Scopus