Cấu trúc và tính chất của lớp phủ carbur hóa có austenite tái sinh trên thép martensitic carbon thấp

A. F. Edneral, V. I. Izotov, L. M. Kleiner, et al., “Low-carbon martensitic steels,” Probl. Metalloved. Fiz. Met., No. 1, 123 – 134 (1972). A. P. Kamenskaya, L. Ts. Zayats, L. M. Kleiner, et al., “Special features of γ → α transformation in steel 12Kh2G2NMFT,” Metalloved. Term. Obrab. Met., No. 1, 90 – 93 (2002). A. P. Kamenskaya, L. Ts. Zayats, L. M. Kleiner, and Yu. N. Simonov, “Special features of formation of structure and properties of low-carbon steel 12Kh2G2NMFT,” Metalloved. Term. Obrab. Met., No. 3, 10 – 17 (2003). R. I. Éntin, L. M. Kleiner, L. I. Kogan, and L. D. Pilikina, “Low-carbon martensitic steels,” Izv. Akad. Nauk SSSR, Metally, No. 3, 114 – 120 (1979). L. M. Kleiner and A. A. Shatsov, Structural High-Strength Low-Carbon Steels of Martensitic Class [in Russian], Izd. PGTU, Perm (2008), 302 p. S. S. Gorelik, L. N. Rastorguev, and Yu. A. Skokov, X-ray and Electron-Optical Analysis [in Russian], MISiS, Moscow (1994), 328 p. I. S. Dukarevich and G. I. Fuke, “Properties of steel 07Kh3GNM after carburizing,” Metalloved. Term. Obrab. Met., No. 5, 34 – 35 (1990). A. S. Ivanov and A. P. Bykova, “A study of two-layer boridecarburized coatings on low-alloy martensitic steels,” Fiz. Met. Metalloved., 100(1), 57 – 64 (2005). A. S. Ivanov, S. S. Tikhomirov, E. N. Kozlova, et al., “Formation of structure and properties of surface layers due to carburizing of low-carbon martensitic steels,” Perspekt. Mater., No. 6, 72 – 79 (2006). A. S. Ivanov, S. A. Kokovyakina, and E. N. Kozlova, “Special features of structure formation of carburized layer in the process of carburizing of low-alloy steel 12Kh2G2NMFT,” Fiz. Met. Metalloved., 107(5), 520 – 527 (2009). S. S. Yugai, V. V. Shvetsov, and A. S. Mal’tsev, “Hardening of steel 12Kh2G2NMFT from the intercritical temperature range,” in: High Technologies in Machine Building and Higher Education, Abs. Rep. of the Mechanical Engineering Faculty of the Perm State Engineering University [in Russian], PGTU, Perm (2003), pp. 68 – 70. S. S. Yugai, L. M. Kleiner, A. A. Shatsov, and N. N. Mitrokhovich, “Formation of structure and properties in low-carbon martensitic steel 12Kh2G2NMFT due to hardening,” Fiz. Met. Metalloved., 97(1), 107 – 112 (2004). V. M. Schastlivtsev, Yu. V. Kaletina, I. L. Yakovleva, and V. D. Sadovskii, “Special features of formation of austenite in maraging steels with 18% nickel,” Fiz. Met. Metalloved., 62(5), 92 – 1001 (1986). V. M. Schastlivtsev, I. L. Barmina, I. L. Yakovleva, and Yu. L. Legostaev, “Formation and stability of reverted austenite in low-carbon Ni – Mo steels,” Fiz. Met. Metalloved., 55(2), 216 – 223 (1983). V. P. Vylezhnev, A. A. Sukhikh, V. G. Bragin, and S. A. Kokovyakina, “Mechanical properties of maraging steel N18K9M5T with retained and reverted austenite,” Fiz. Met. Metalloved., 75(4), 157 – 165. Yu. B. Sazonov, A. A. Komissarov, Yu. V. Smirnova, and A. Yu. Sazonova, “Development of heat treatment regimes for obtaining a fine-grained structure,” Metalloved. Term. Obrab. Met., No. 5, 24 – 31 (2009). I. I. Kositsyna, “High-strength austenitic steels of various alloying systems with carbide strengthening,” Metalloved. Term. Obrab. Met., No. 10, 6 – 13 (2008).