Abstract
The plate and strip production from low-carbon low-alloy steels for oil and gas pipes and critical duty-welded structures is today one of the most innovative branches of ferrous metallurgy. Since the 1970s, there has been a continuous development of the chemical compositions of steels and rolling technologies in order to improve the properties combining high strength, toughness, cold resistance, corrosion resistance, and weldability of steels, as well as to reduce the cost of their production.
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References
Bufalini, P., Pontremoli, M., Aprile, A. (1983). Accelerated cooling after control rolling of line–pipe plates influence of process conditions on microstructure and mechanical properties. In: Proceedings of the International Conference on Technology and Applications of HSLA steels, Philadelphia, Pennsylvania (pp. 743–753) October 3–6 1983.
Efron, L. I. (2012). Metal science in big metallurgy. Pipe steels. Metallurgizdat, Moscow
Efimov, A. A., Kholodnyy, A. A., Shabalov, I. P., et al. (2017). Structure transformations in the course of cooling of low-carbon low-alloy pipe steels. Problems of Ferrous Metallurgy and Materials Science, 3, 49–55.
Kholodnyi, A. A., Matrosov, Y. I., Matrosov, M. Y., & Sosin, S. V. (2016). Effect of carbon and manganese on low-carbon pipe steel hydrogen-induced cracking resistance. Metallurgist, 60(1), 54–60.
Matrosov, M. Y., Lyasotskii, I. V., Kichkina, A. A., et al. (2012). Microstructure in low-carbon low-alloy high-strength pipe steel. Steel in Translation, 42(1), 84–93.
Matrosov, Y. I., Kholodnyi, A. A., Popov, E. S., et al. (2014a). Influence of thermomechanical processing and heat treatment on microstructure formation and HIC resistance of pipe steel. Problems of Ferrous Metallurgy and Materials Science, 1, 98–104.
Matrosov, Y. I., Tskitishvili, E. O., Popov, E. S., Konovalov, G. N., & Kholodnyi, A. A. (2014b). Accelerated cooling after controlled rolling during heavy plate pipe steel manufacture in 3600 mill at the Azovstal metallurgical combine. Metallurgist, 57(9), 837–844.
Matrosov, Y. I., Kholodnyi, A. A., Popov, E. S., et al. (2014c). Microstructure and properties of rolled plates from the X52-X65 pipe steels after TMT with accelerated cooling. Problems of Ferrous Metallurgy and Materials Science, 3, 53–60.
Ringinen, D. A., Chastukhin, A. V., Khadeev, G. E., & Efron, L. I. (2014). Application of Methods of Processes Simulation and Reproduction in Laboratory Conditions for the Development of Technological Schemes for Thermomechanical Rolling. Problems of Ferrous Metallurgy and Materials Science, 3, 28–37.
Salganik, V. M., Chikishev, D. N., Pozhidaeva, E. B., & Nabatchikov, D. G. (2016). Analysis of structural and phase transformations in low-alloy steels based on dilatometric studies. Metallurgist, 59(9), 766–773.
Shabalov, I. P., Matrosov, Y. I., Kholodnyi, A. A., et al. (2017). Steel for gas and oil pipelines resistant to fracture in hydrogen sulphide-containing media. Moscow: Metallurgizdat.
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Shabalov, I., Matrosov, Y., Kholodnyi, A., Matrosov, M., Velikodnev, V. (2019). Formation of the Structure and Properties of Plates from Pipe Steels upon Thermomechanical Processing with Accelerated Cooling. In: Pipeline Steels for Sour Service. Topics in Mining, Metallurgy and Materials Engineering. Springer, Cham. https://doi.org/10.1007/978-3-030-00647-1_4
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DOI: https://doi.org/10.1007/978-3-030-00647-1_4
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