Obtaining high-quality properties of rolled material for large-diameter pipes based on formation of ferrite-bainite microstructure
Tóm tắt
Từ khóa
Tài liệu tham khảo
Yu. D. Morozov, L. I. Efron, and A. A. Nemtinov, “Development of requirements for steels to be used in new designs for trunk gas pipelines, and issues involved in ensuring the properties of rolled plate for such pipe,” Materials from the 6th International Science and Engineering Conference on the Readiness of OAO Khartsyz Pipe Plant for Production of Pipes to be Used in High-Strength Pipelines (Yalta, Ukraine, May 14–17, 2007).
Yu. D. Morozov and L. I. Efron, “Steels for line pipe: Status and trends,” Metallurg, No. 5, pp 53–57 (2006); Metallurgist, Vol. 50, Nos. 5–6, 248–254 (2006).
F. Heisterkamp, K. Hulka, Yu. I. Matrosov, et al., Niobium-Bearing Low-Alloy Steels [in Russian], SP Intermet Engineering, Moscow (1999).
Yu. A. Bodyaev, V. I. Stolyarov, Yu. D. Morozov, et al., “Use of controlled rolling in the production of coiled steel for oil-field tubing of strength classes up to K65,” Metallurg, No. 8, pp. 63–67 (2006); Metallurgist, 50, No. 7–8, pp. 436–443 (2006).
S. Yu. Nastich, Yu. D. Morozov, L. I. Efron, and M. Yu. Matrosov, “Steels with ferrite-bainite microstructure with improved weldability and cold-resistance for main pipelines,” in: Proc. Int. Conf. on Processing and Manufacturing of Advanced Materials THERMEC 2006, Vancouver, Canada, July 4–8 2006 (2007), Materials Science Forum, 539–543, 4744–4749 (2007).
M. Yu. Matrosov, L. I. Efron, V. I. Il’inskii, et al., “Use of accelerated cooling to improve the mechanical and processing properties of rolled plates used to make large-diameter gas-line pipe,” Metallurg, No. 6, pp. 49–54 (2005); Metallurgist, 49, Nos. 5–6, 220–229 (2005).
S. Yu. Nastich, Yu. D. Morozov, B. F. Zin’ko, et al., “Production of high-weldability steel for large-diameter pipe,” Metallurg, No. 2, pp. 36–40 (2006); Metallurgist, 50, No. 1–2, pp. 54–60 (2006).
L. I. Efron, S. Yu. Nastich, V. I. Stolyarov, et al., “Steel obtained by controlled rolling for pipe of strength class K60,” Stal’, No. 7, pp. 75–78 (2006).