Review of modern requirements for welding of pipe high-strength low-alloy steels

OBRABOTKAMETALLOV Vol. 25 No. 4 2023 55 TECHNOLOGY 16. Comparative analysis of structural state of welded joints rails using method of Barkhausen effect and ultrasound / A.E. Balanovsky, M.G. Shtayger, V.V. Kondrat’ev, A.I. Karlina, A.S. Govorkov // Journal of Physics: Conference Series. – 2018. – Vol. 1118 (1). – P. 012006. – DOI: 10.1088/17426596/1118/1/012006. 17. Eff ects of Q&T parameters on phase transformation, microstructure, precipitation and mechanical properties in an oil casing steel / Q. Zhang, Q. Yuan, Z. Xiong, M. Liu, G. Xu // Physics of Metals and Metallography. – 2021. – Vol. 122 (14). – P. 1463–1472. – DOI: 10.1134/ S0031918X21140180. 18. Eff ect of microstructure on the yield ratio and low temperature toughness of linepipe steels / Y.M. Kim, S.K. Kim, Y.J. Lim, N.J. Kim // ISIJ International. – 2002. – Vol. 42 (12). – P. 1571–1577. – DOI: 10.2355/ isijinternational.42.1571. 19. Comparative evaluation of austenite grain in high-strength rail steel during welding, thermal processing and plasma surface hardening / A.D. Kolosov, V.E. Gozbenko, M.G. Shtayger, S.K. Kargapoltsev, A.E. Balanovskiy, A.I. Karlina, A.V. Sivtsov, S.A. Nebogin // IOP Conference Series: Materials Science and Engineering. – 2019. – Vol. 560. – P. 012185. – DOI: 10.1088/1757-899X/560/1/012185. 20. Determination of rail steel structural elements via the method of atomic force microscopy / A.E. Balanovskiy, M.G. Shtaiger, V.V. Kondratyev, A.I. Karlina // CIS Iron and Steel Review. – 2022. – Vol. 23. – P. 86–91. – DOI: 10.17580/cisisr.2022.01.16. 21. Смирнов М., Пышминцев И., Борякова А. Классификация микроструктур низкоуглеродистых трубных сталей // Металлург. – 2010. – № 7. – С. 45–51. 22. Ниобийсодержащие низколегированные стали / Ф. Хайстеркамп, К. Хулка, Ю.И. Матросов, Ю.Д. Морозов, Л.И. Эфрон, В.И. Столяров, О.Н. Чевская. – М.: Интермет Инжиниринг, 1999. – 94 с. 23. Baker T.N. Microalloyed steels // Ironmaking & Steelmaking. – 2016. – Vol. 43 (4). – P. 264–307. – DOI: 10.1179/1743281215Y.0000000063. 24. Procedures, considerations for welding X80 line pipe established / H.G. Hillenbrand, G. Niederhoff Hauck, E. Perteneder, G. Wellnitz // Oil & Gas Journal. – 1997. – Vol. 37. – P. 47–56. 25. MorrisonW.B. Microalloy steels – the beginning // Materials Science andTechnology. – 2009. –Vol. 25 (9). – P. 1066–1073. – DOI: 10.1179/174328409X453299. 26. Microstructure and mechanical properties of X80 pipeline steel joints by friction stir welding under various cooling conditions / G.M. Xie, R.H. Duan, P. Xue, Z.Y. Ma, H.L. Liu, Z.A. Luo // Acta Metallurgica Sinica (English Letters). – 2020. – Vol. 33. – P. 88–102. – DOI: 10.1007/s40195-019-00940-0. 27. Current challenges and opportunities in microstructure-related properties of advanced high-strength steels / D. Raabe, B. Sun, A. Kwiatkowski Da Silva, B. Gault, H.-W.Yen, K. Sedighiani, P.T. Sukumar, I.R. Souza Filho, S. Katnagallu, E. Jägle, P. Kürnsteiner, N. Kusampudi, L. Stephenson, M. Herbig, C.H. Liebscher, H. Springer, S. Zaeff erer, V. Shah, S.-L. Wong, C. Baron, M. Diehl, F. Roters, D. Ponge // Metallurgical and Materials Transactions A. – 2020. – Vol. 51. – P. 5517–5586. – DOI: 10.1007/s11661-020-05947-2. 28. New development of high grade X80 to X120 pipeline steels / J.Y. Yoo, S.S. Ahn, D.H. Seo, W.H. Song, K.B. Kang // Materials and Manufacturing Processes. – 2011. – Vol. 26 (1). – P. 154–160. – DOI: 10.1080/10426910903202534. 29. Moore P.L., Howse D.S., Wallach E.R. Development of Nd: YAG laser and laser/MAG hybrid welding for land pipeline applications // Welding and Cutting. – 2004. – Vol. 56 (3). – P. 186–191. 30. Gook S., Gumenyuk A., Rethmeier M. Hybrid laser arc welding of X80 and X120 steel grade // Science and Technology of Welding and Joining. – 2014. – Vol. 19 (1). – P. 15–24. – DOI: 10.1179/1362171813Y. 0000000154. 31. Infl uence of heat input and preheating on the cooling rate, microstructure and mechanical properties at the hybrid laser-arc welding of API 5L X80 steel / G. Turichin, M. Kuznetsov, A. Pozdnyakov, S. Gook, A. Gumenyuk, M. Rethmeier // Procedia CIRP. – 2018. – Vol. 74. – P. 748–751. – DOI: 10.1016/j. procir.2018.08.018. 32. Laser hybrid butt welding of large thickness naval steel / C. Churiaque, M. Chludzinski, M. PorruaLara, A. Dominguez-Abecia, F. Abad-Fraga, J.M. Sánchez-Amaya // Metals. – 2019. – Vol. 9. – P. 100. – DOI: 10.3390/met9010100. 33. Keitel S., Jasnau U., Neubert J. Applications of fi ber laser based deep penetration welding in shipbuilding, rail car industries and pipe welding // 4th International Symposium on High-Power Laser and their Applications, June 24–26, 2008. – St. Petersburg, Russia, 2008. 34. Kah P. Overview of the exploration status of laser-arc hybrid welding processes // Reviews onAdvanced Materials Science. – 2012. – Vol. 30. – P. 112–132. 35. Waveform Control Technology®: Surface Tension Transfer®. – Cleveland: The Lincoln Electric Company, 2006. – 4 p. – (Relatório Técnico, NX-2.20 – Nov/06). 36. Ефименко Л.А., Рамусь А.А. Влияние морфологии структуры на сопротивление хрупкому разрушению сварных соединений высокопрочных трубных сталей // Металловедение и термическая обработка металлов. – 2015. – № 9 (723). – С. 41–45.

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