PSI - Issue 60

B Shashank Dutt et al. / Procedia Structural Integrity 60 (2024) 471–483 Author name / Structural Integrity Procedia 00 (2019) 000 – 000

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Kim, Y.J., Youn, G.G., Hwang, J.H.,Kim, Y.J., Miura, Y., 2022. Aging constants for efficient fracture toughness prediction of thermally aged GTAW/ SMAW of 316L stainless steel. International journal of pressure vessels and piping 197, 104632. Kumar, A., Singh, B., Sandhu, S.S., 2020. Effect of thermal aging on metallurgical, tensile and impact toughness performance of electron beam welded AISI 316 SS joints. Fusion Engineering and Design 159, 111949. O’Donnel, I.J., Huthman, H., Tavassoli, A.A., 1996. The fracture toughness behavior of austenitic steels and weld metal including the effects of thermal ageing and irradiation. International journal of pressure vessels and piping 65 (3), 209-220. Oh, G., 2022. A simplified toughness estimation method based on standard tensile data. International journal of pressure vessels and piping 199, 104733 Sasikala, G., Ray, S.K., 2011. Influence of ageing on the quasistatic fracture toughness of an SS 316 (N) weld at ambient and elevated temperatures. Journal of Nuclear Materials 408 (1), 45-53. Vitek, J.M., David, S.A., Alexander, D.J., Keiser, J.R., Nanstad, R.K., 1991. Low temperature behavior of type 308 stainless steel weld metal. Acta Metallurgica 39 (4), 503 – 516. Youn, G.G., Kim, Y.J., Miura, Y., 2021. Thermal aging effect on fracture toughness of GTAW/SMAW of 316L stainless steel: experiments and applicability of existing CASS models. Nuclear Engineering and Technology 53, 1357-1368. Yu, W., Fanb, M., Shib, J., Xueb, F., Chena, X., Liuc, H., 2018. A comparison between fracture toughness at different locations of SMAW and GTAW welded joints of primary coolant piping. Engineering Fracture Mechanics 202, 135-146.