References
- Dimitris I, Theodora E. Corrosion of weldments: production and transmission. Woodhead Publishing Series in Energy; 2017. doi:10.1016/B978-0-08-101105-8.00010-3
- Hao L, Guoming Y, Jing X, et al. Corrosion prediction for naphtha and gas system of atmospheric distillation tower based on artificial neural network and genetic algorithm. Int J Oil Gas Coal Eng. 2018;6(2):25–33.
- Wahid A, Olson D, Matlock D. Welding, brazing, and soldering: corrosion of weldments. USA: ASM International; 1993.
- Lamet U, Bruno A, Richard L, et al. Alley, Welding, brazing, and soldering: overview of Weld Discontinuities. USA: ASM International; 1993.
- Rajeev K, Vandana S. A review on analysis, monitoring and detection of weld defect products. Int J Eng Res Technol. 2015;4:664–667.
- Neury B, Tania M. Automated detection of welding defects in pipelines from radiographic images DWDI. Ndt & E Int. 2017;86:7–13.
- Welding in the Oil and Gas Industry. 2023. https://blog.red-d-arc.com/welding/welding-in-the-oil-and-gas-industry/.
- Hsuan-Han L, Weite W. Practical examination of the welding residual stress in view of low-carbon steel welds. J Mater Res Technol. 2020;9(3):2717–2726.
- Dean D. FEM prediction of welding residual stress and distortion in carbon steel considering phase transformation effects. Mater Des. 2009;30:359–366.
- Withers P, Bhadeshia H. Overview: residual stress: part 1 – measurement techniques. Mater Sci Technol. 2001;17(4):355–365. doi:10.1179/026708301101509980
- Ioannis V, Dimitrios K. Multiclass defect detection and classification in weld radiographic images using geometric and texture features. Expert Syst Appl. 2010;37:7606–7614.
- ASME Boiler and Pressure Vessel Committee. ASME Boiler and Pressure Vessel code an international code: non-Distractive examination. Section V; 2021.
- The ASM Handbook Committee. Nondestructive evaluation and quality control: nondestructive inspection of weldments, brazed assemblies, and soldered joints. USA: ASM International; 1992.
- Betinia G, Gomesa P, Milagrea X, et al. Study on welding thermal cycle and residual stress of UNS S32304 duplex stainless steel selected as external shield for a transport packaging of Mo-99BJRS. Braz J Radiat Sci. 2019;7(2A):1–13.
- Cho H, Kim W. Analysis of residual stress in carbon steel weldment incorporating phase transformations. Sci Technol Welding Joining. 2002;7(4):212–216. doi:10.1179/136217102225004257
- Mahmood H, Gyorgy K. Numerically simulated prediction of residual stresses in welding considering phase transformation effects. J Phys: Conf Ser. 2020;1527:1–8.
- David P. Welding engineering an introduction. UK: John Wiley & Sons; 2016.
- Salah S, Haidar M, Ameen A. Measurement and prediction of residual stresses in low carbon steel pipes welded shielded metal arc welding. Basrah J Eng Sci. 2020;20(2):60–65.
- Régis B. Mechanics of welding processes and industrial applications. Great Britain: John Wiley & Sons; 2008.
- Abdelmounam S. Trends in oil and gas corrosion research and technologies: corrosion of weldments. UK: Woodhead Publishing; 2017.
- Safaria H, Pourrajaba R, Yaghootian A. Transverse and longitudinal stress analysis in reinforced welded oil branched pipes. In: MATEC Web of Conferences. Vol. 167; 2018. p. 1–5.
- Andrea C, Francesco F, Francesco A, et al. Influence of residual stresses on the fatigue life of welded joints. Numerical simulation and experimental tests. Int J Fatigue. 2022;162:1–26.
- Masahito M. Control of welding residual stress for ensuring integrity against fatigue and stress–corrosion cracking. Nucl Eng Des. 2007;237(2):107–123.
- Ando Y, Yagawa G, Hayase Y. Evaluation of induction heating stress improvement (IHSI) treatment applied to nuclear primary piping. Int J Pressure Vessels Piping. 1982;10(5):399–406. doi:10.1016/0308-0161(82)90020-5
- Wang J, Rashed S, Murakawa H, et al. Numerical prediction and mitigation of out-of-plane welding distortion in ship panel structure by elastic FE analysis. Mar Struct. 2013;34:135–155. doi:10.1016/j.marstruc.2013.09.003
- Ninshu M, Jiangchao W, Yasuhisa O. Out-of-plane welding distortion prediction and mitigation in stiffened welded structures. Int J Adv Manuf Technol. 2016;84:1371–1389.
- Dong P, Song S, Zhang J. Analysis of residual stress relief mechanisms in post-weld heat treatment. Int J Pressure Vessels Piping. 2014;122:6–14. doi:10.1016/j.ijpvp.2014.06.002
- Zhang J, Dong P, Song S. Stress relaxation behavior in PWHT of welded components. In: PVP Conference. Vol. 44564; 2011. p. 673–679. doi:10.1115/PVP2011-57826
- Li J, Zhang W, Fang H. Finite element simulation of rectifying roundness of welded thin-walled cylinder by extrusion. j.hjxb. 2013;6:89–92.
- Guan Q, Guo D, Li C. Low stress no-distortion (LSND) welding a new technique for thin materials. Transactions of Chinese Welding Society. 1990;11:231–237.
- Yi B, Wang J. Mechanism clarification of mitigating welding induced buckling by transient thermal tensioning based on inherent strain theory. J Manuf Process. 2021;68:1280–1294.
- Yong L, Ping W, Hongyuan F, et al. Mitigation of residual stress and deformation induced by TIG welding in thin-walled pipes through external constraint. J Mater Res Technol. 2021;15:4636–4651.