References |
Grachev, S.V., Mal’tseva, L.A., Mal’tseva, T.V., Austenite- ferrite corrosion-resistant steel for high-strength wire (2000) Metal Sci. Heat. Treat, 42 (11-12), pp. 419-422; Mal’tseva, L.A., Ozerets, N.N., Rossina, N.G., Corrosion resistance of high-strength aluminum-containing steels for medical instruments (2009) Materialovedenie, 7 (670), pp. 19-23; Mal’tseva, L.A., Laws of phase and structural transformations in carbonless high Fe-Cr-Ni-Co –Mo-Ni-base steels (2007) Zh. Funkts. Mater, (2), pp. 75-79; Pickering, F.B., (1982) The Physical Metallurgy and Design of Steels [Russian Translation], 183p. , Metallurgiya, Moscow; Birman, S.R., (1974) Sparingly Alloyed Maraging Steels [In Russian], 208p. , Metallurgiya, Moscow; Goldshtein, M.I., Grachev, S.V., Veksler, Y.G., (1999) Special Steels [In Russian], 408p. , MISiS, Moscow; Bratukhin, A.G., Demchenko, O.F., Dolzhenkov, N.N., Krivonogov, G.S., (2006) High-Strength Corrosion-Resistant Steels for Modern Aircraft [In Russian], 656p. , MAI, Moscow; Botvina, L.P., (2008) Fracture: Kinetics, Mechanisms, General Laws [In Russian], 334p. , Nauka, Moscow; Sagaradze, V.V., Uvarov, A.I., (2013) Strengthening and Properties of Austenitic Steels [In Russian], 720p. , RIO UrO RAN, Ekaterinburg, Russia; Maltseva, L.A., Loginov, Y.N., Maltseva, T.V., Sharapova, V.A., Effect of the state of stress on the strain-induced martensite formation in 03Kh14N11K5M2Yu2T steel (2013) Russian Metallurgy (Metally), (9), pp. 706-711. , 10.1134_S0036029513090097; Filippov, M.A., Plotnikov, G.N., Filippenkov, A.A., (2009) Wear- Resistant Steels for Castings [In Russian], 358p. , UGTU-UPI, Ekaterinburg; Guimaras, J.R.C., Sergo, F.F.O., (1974) Scr. Metall, 13, pp. 537-542; Byun, T.S., Hashimoto, N., Farrell, K., Byun, T.S., Temperature dependence of strain hardening and plastic instability behavior in austenitic stainless steels (2004) Acta Mater, 52, pp. 3889-3899. , 10.1016_j.actamat.2004.05.003; Noskova, N.I., Korznikov, A.V., Plasticity and fracture of nanostructured materials (2002) Phys. Met. Metallogr, 94, pp. S24-S29; 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 Metall. Mater, 40 (7), pp. 1703-1716; Beese, A.M., Mohr, D., Effect of stress triaxiality and Lode angle on the kinetics of strain-induced austenite-tomartensite transformation (2011) Acta Mater, 59, pp. 2589-2600; Solntsev, Y.P., Pryakhin, E.I., (2007) The Science of Materials [In Russian], p. 784. , Khimizdat, St. Petersburg |