Structural transformations in hull material clad by nitrogen stainless steel using various methods

详细信息    查看全文

• 作者：V. V. Sagaradze (1)
  N. V. Kataeva (1)
  S. Yu. Mushnikova (2)
  O. A. Khar’kov (2)
  G. Yu. Kalinin (2)
  V. D. Yampol’skii (2)
  
• 关键词：hull steel ; nitrogen steel ; hot rolling ; facing ; explosive welding ; intermediate layer ; martensite ; optical microscopy ; hardness testing ; scanning electron microscopy
• 刊名：The Physics of Metals and Metallography
• 出版年：2014
• 出版时间：February 2014
• 年：2014
• 卷：115
• 期：2
• 页码：202-210
• 全文大小：5,359 KB
• 参考文献：1. N. Nesterov, “Problems of icebreaker service in West Arctics,-Morskoi Flot, No. 5, 24-8 (2007).
  2. L. G. Korshunov, V. V. Sagaradze, N. L. Chernenko, N. L. Pecherkina, G. Yu. Kalinin, S. Yu. Mushnikova, and O. A. Khar’kov, “Structure and tribological properties of nitrogen-containing stainless austenitic steels,-Vopr. Materialoved., No. 3, 136-45 (2012).
  3. I. V. Gorynin, V. A. Malyshevskii, and V. V. Rybin, “High-strength weldable hull steels for underwater ship-building: Yesterday, to-day, to-morrow,-in / Role of Russian Science in Creation of Native Underwater Fleet, Ed. by A. A. Sarkisov. (Nauka, Moscow, 2008), pp. 281-88 [in Russian].
  4. O. A. Bannykh, V. M. Blinov, I. L. Poimenov, and G. A. Kuvshinov, “Effect of heat treatment on the structure and mechanical properties of nonmagnetic high-nitrogen steels produced by casting with counter-pressure,-Izv. Akad. Nauk SSSR, Met., No. 4, 89-5 (1982).
  5. B. D. Shanina, V. G. Gavriljuk, and H. Berns, “High strength austenitic CrMnN steels,-Steel Res. 78, 714-28 (2007).
  6. U. R. Lenel and B. R. Knott, “Structure and properties of corrosion and wear resistant Cr-Mn-N steels,-Metall. Trans. A 18, 847-55 (1987). CrossRef
  7. G. Stein, “The development of new materials for non-magnetizable retaining rings and other application in the power-generating industry,-Steel Forgings. ASTM Spec. Techn. Publ. No. 527, 237-57 (1986).
  8. S. Yu. Mushnikova, Yu. L. Legostaev, A. A. Khar’kov, S. N. Petrov, and G. Yu. Kalinin, “An investigation on the influence of nitrogen on austenitic steel pitting resistance,-Vopr. Materialoved., No. 2, 126-35 (2004).
  9. L. G. Korshunov, Yu. N. Goikhenberg, N. A. Tereshchenko, A. I. Uvarov, A. V. Makarov, and N. L. Chernenko, “Wear resistance and surface structure of nitrogen-containing stainless austenitic steels upon friction and abrasive wear,-Phys. Met. Metallogr. 84, 554-61 (1997).
  10. L. G. Korshunov, Yu. N. Goikhenberg, and N. L. Chernenko, “Effect of alloying and heat treatment on the structure and tribological properties of nitrogen-bearing stainless austenitic steels under abrasive and adhesive wear,-Met. Sci. Heat Treatment 49, 217-26 (2007). CrossRef
  11. I. V. Gorynin, V. A. Malyshevskii, G. Yu. Kalinin, S. Yu. Mushnikova, O. A. Bannykh, V. M. Blinov, and M. V. Kostina, “Application of computer modeling for forecasting structurization and properties at carrying out of quenching for large-size forgings out of reactor steels,-Vopr. Materialoved., No. 3, 39-1 (2009).
  12. V. V. Sagaradze, A. I. Uvarov, N. L. Pecherkina, V. A.Malyshevskii, G. Yu. Kalinin, and V. D. Yampol’skii, “Structure and mechanical properties of the nitrogen-containing austenitic plate steel 04Kh20N6G11AM2BF, Phys. Met. Metallogr. 102, 233-39 (2006). CrossRef
  13. E. Houdremont, / Handbuch der Sonderstahlkunde, 3rd ed. (Springer-Verlag, Berlin, 1956; Metallurgizdat, Moscow, 1959), Vol. 1. CrossRef
  14. V. V. Sagaradze, N. L. Pecherkina, V. A. Zavalishin, Yu. I. Filippov, S. Yu. Mushnikova, and G. Yu. Kalinin, “The influence of cooling rate in the interval of 1100-00°C on the mechanical properties and structure of nitrogen-containing austenitic steel,-Vopr. Materialoved. 67(3), 5-2 (2011).
  15. V. A. Zavalishin, V. V. Sagaradze, Yu. I. Filippov, I. I. Kositsyna, and T. P. Vasechkina, “Catastrophic corrosion cracking of Cr-Mn-V aging austenitic steels,-Strength Mater.23, 60-6 (1991). CrossRef
  16. V. D. Sadovskii, / Structural Heredity in Steel (Metallurgiya, Moscow, 1973) [in Russian].
  17. V. I. Lysak and S. V. Kuz’min, / Explosion Welding (Mashinostroenie, Moscow, 2005) [in Russian].
  18. B. A. Greenberg, M. A. Ivanov, V. V. Rybin, A. V. Inozemtsev, O. V. Antonova, O. A. Elkina, A. M. Patselov, S. V. Kuz’min, V. I. Lysak, and V. E. Kozhevnikov, “Inhomogeneities of the interface produced by explosive welding,-Phys. Met. Metallogr. 113, 176-89 (2012). CrossRef
  
• 作者单位：V. V. Sagaradze (1)
  N. V. Kataeva (1)
  S. Yu. Mushnikova (2)
  O. A. Khar’kov (2)
  G. Yu. Kalinin (2)
  V. D. Yampol’skii (2)
  
  1. Institute of Metal Physics, Ural Branch, Russian Academy of Sciences, ul. S. Kovalevskoi 18, Ekaterinburg, 620990, Russia
  2. Prometei Central Research Institute of Structural Materials, ul. Shpalernaya 49, St. Petersburg, 191015, Russia
  
• ISSN：1555-6190

文摘

Specimens of a 10N3KhDMBF shipbuilding hull steel were clad by a 04Kh20N6G11M2AFB nitrogen austenitic steel using various treatment conditions, which included hot rolling, austenitic facing, and explosive welding followed by hot rolling and heat treatment. Between the base and cladding materials, an intermediate layer with variable concentrations of chromium, manganese, and nickel was found, in which a martensitic structure was formed. In all the cases, the strength of bonding of the cladding layer to the hull steel (determined in tests for shear to fracture) was fairly high (σsh = 437-20 MPa). The only exception was the specimen produced by unidirectional facing without subsequent hot rolling (σsh = 308 MPa), in which nonfusions between the faced beads of stainless steel were detected.