Влияние скорости охлаждения на структуру низкоуглеродистой низколегированной стали после контролируемой термомеханической обработки
Аннотация
Ключевые слова
Полный текст:
PDFЛитература
Хулка К., Петерс П., Хайстеркамп Ф. Тенденции разработки сталей для труб большого диаметра // Сталь. 1997. № 10. С. 62 - 67.
Arabey A. B. Requirements on the metal in gas pipelines // Steel in Translation. 2010. V. 40, No. 7. P. 601 - 608.
Столхейм Д. Дж. Современные схемы легирования высокопрочных сталей для магистральных нефтегазопроводов. Часть I // Металлург. 2013. № 11. 53 - 66.
Shigeru E., Naoki N. Development of thermo-mechanical control process (TMCP) and high performance steel in JFE steel // JFE Technical Report. 2015. No. 20. P. 1 - 7.
Morozov Yu. D., Nastich S. Yu., Matrosov M. Yu. et al. Obtaining high-quality properties of rolled material for large-diameter pipes based on formation of ferrite-bainite microstructure // Metallurgist. 2008. V. 52, No. 1 - 2. P. 21 - 28.
Matrosov M. Yu., Kichkina A. A., Efimov A. A. et al. Simulating structure-forming processes in tube steels during controlled rolling with accelerated cooling // Metallurgist. 2007. V. 51, No. 7 - 8. P. 367 - 376.
Nastich S. Yu., Morozov Yu. D., Matrosov M. Yu. et al. Assimilation of production in an MMK 5000 mill of thick rolled sheet from low-alloy steels with improved strength and cold resistance properties // Metallurgist. 2012. V. 55, No. 11 - 12. P. 810 - 818.
Nastich S. Y., Kornilov V. L., Morozov Y. D. et al. New steels for pipelines of strength classes K54 - K60 (X70): Production experience at OAO MMK // Steel in Translation. 2009. V. 39, No. 5. P. 431 - 436.
Sung H. K., Shin S. Y., Hwang B. et al. Effects of carbon equivalent and cooling rate on tensile and Charpy impact properties of high-strength bainitic steels // Materials Science and Engineering A. 2011. V. 530, No. 1. P. 530 - 538.
Xie Z. J., Ma X. P., Shang C. J. et al. Nano-sized precipitation and properties of a low carbon niobium micro-alloyed bainitic steel // Materials Science and Engineering A. 2015. V. 641. P. 37 - 44.
Голи-Оглу Е. А., Эфрон Л. И., Морозов Ю. Д. Влияние режимов деформации на основных этапах контролируемой прокатки на микроструктуру трубной стали // МиТОМ. 2013. № 6. С. (Goli-Oglu E. A., Йfron L. I., Morozov Yu. D. Effect of deformation regime in main stages of controlled rolling on pipe steel microstructure // Metal Science and Heat Treatment. 2013. V. 55, No. 5 - 6. P. 294 - 297).
Pyshmintsev I. Y., Struin A. O., Gervasyev A. M. at al. Effect of bainite crystallographic texture on failure of pipe steel sheets made by controlled thermomechanical treatment // Metallurgist. 2016. V. 60, No. 3 - 4. P. 405 - 412.
Zhao M.-C., Yang K., Shan Y. The effects of thermo-mechanical control process on microstructures and mechanical properties of a commercial pipeline steel // Materials Science and Engineering A. 2002. V. 335, No. 1 - 2. P. 14 - 20.
Lobanov M. L., Rusakov G. M., Urtsev V. N. at al. Thermal effect of bainitic transformation in tube steel by accelerated cooling // Letters on Materials. 2018. V. 8, No. 2. P. 246 - 251.
Lobanov M. L., Rusakov G. M., Redikul'tsev A. A. et al. Investigation of special misorientations in lath martensite of low-carbon steel using the method of orientation microscopy // The Physics of Metals and Metallography. 2016. V. 117, No. 3. P. 254 - 259.
Lobanov M. L., Borodina M. D., Danilov S. V. et al. Texture inheritance on phase transition in low-carbon, low-alloy pipe steel after thermomechanical controlled processing // Steel in Translation. 2017. V. 47, No. 11. P. 710 - 716.
Rusakov G. M., Lobanov M. L., Redikul'tsev A. A. et al. Special misorientations and textural heredity in the commercial alloy Fe - 3 % Si // The Physics of Metals and Metallography. 2014. V. 115, No. 8. P. 775 - 785.
Hцlscher M., Raabe D., Lьcke K. Relationship between rolling textures and shear textures in f.c.c. and b.c.c. metals // Acta Metallurgica et Materialia. 1994. V. 42, No. 3. P. 879 - 886.
Kestens L., Jonas J. J. Transformation and recrystallization textures associated with steel processing // in: Metalworking: Bulk Forming, S. L. Semiatin, Ed., Vol. 14A of ASM Handbook, P. 685 - 700, ASM International, Materials Park, Ohio, USA, 2005.
Hutchinson B., Ryde L., Lindh E. et al. Texture in hot rolled austenite and resulting transformation products // Materials Science and Engineering A. 1998. V. 257, No. 1. P. 9 - 17.
Tomida T., Wakita M. Transformation texture in hot-rolled steel sheets and its quantitative prediction // ISIJ International. 2012. V. 52, No. 4. P. 601 - 609.
Nakada N., Ito H., Matsuoka Y. et al. Deformation-induced martensitic transformation behavior in cold-rolled and cold-drawn type 316 stainless steels // Acta Materialia. 2010. V. 58, No. 3. P. 895 - 903.
Humphreys F. J., Hatherly M. Recrystallization and Related Annealing Phenomena. Oxford: ELSEVIER Ltd, 2004. 574 p.
Горностырев Ю. Н., Кацнельсон М. И., Кузнецов А. Р., Трефилов А. В. Роль границ зерен в гетерогенном зарождении мартенситной фазы // Фазовые и структурные превращения в сталях: Сб. науч. тр. Вып. 1 / под ред. В. Н. Урцева. Магнитогорск, 2001. С. 209 - 219.
Bhadeshia H. K. D. H. Martensite and bainite in steels: Transformation mechanism & mechanical properties // Journal De Physique. IV: JP. 1997. V. 7, No. 5. P. C5-367 - C5-376.
DOI: https://doi.org/10.30906/mitom.2019.1.31-37
© Издательский дом «Фолиум», 1998–2024