PSI - Issue 60

P.K. Sharma et al. / Procedia Structural Integrity 60 (2024) 335–344 P.K. Sharma/ StructuralIntegrity Procedia 00 (2023) 000 – 000

344 10

References

Allen, G.C., Flewitt, P.E.J., Mclntyre, P., Preece, C., Wild, R.K., Younes, C.M., 1996. Development of a new nickel alloy for use in PWR steam generators. Materials Science Forum 207-209, 453-456. ASTM Standard E 1820-01, 2000. Standard Test Method For measurement of Fracture Toughness, ASTM, Philadelphia, Pennsylvania. Boehlert, C.J., 2008. The effect of thermo-mechanical processing on the creep behaviour of Alloy 690. Materials Science and Engineering A473, 233-237 Cooper, A.J., Brayshaw, W.J., Sherry, A.J., 2018. Ductile Fracture Behaviour of Hot Isostatically Pressed Inconel 690 Superalloy Metallurgical and materials transactions 49A, 1079-1090. Cornec, A., Heerens, J., Schwalbe, K., 1986. Bestimmung der Ribspizenaufweitung CTOD und Ribabstumpfung SFW ausdem J-integral, GKSS Report 86/E/15. Sebastian Cravero, S., Chiodo, M., Ruggieri, C., 2007. The unloading compliance procedure for JR curve testing using SE(T) fracture specimens. 19th International Congress of Mechanical Engineering, Brasília, DF. Ekabote, N., Krishnaraja, Kodancha, G., Kudari, S.K., 2020. Suitability Of Standard Fracture Test Specimens For Low Constraint Conditions International Conference on Design, Automation, and Control (ICDAC 2020) IOP Conf. Series Material Science Engineering 1123 012033. Harrod, D.L., Gold, R.E., Jacko, R.J., 2001 Alloy optimization for PWR steam generator heat-transfer tubing. Journal of Minerals 53 (7), 14-17. Hu, R., Bai, G.H., Li, J.S., Zhang, J.Q., Zhang, T.B., Fu, H.Z., 2012. Precipitation behavior of grain boundary M23C6 and its effect on tensile properties of Ni-Cr-W based superalloy. Material Science Engineering A 548, 125-147. Huang, Y., Wenxing Zhou, W., 2014. Investigation of plastic eta factors for clamped SE(T) specimens based on three-dimensional finite element analyses. Engineering Fracture Mechanics 132, 120 – 135. Kai, J.J., Yu, G.P., Tsai, C.H., Liu, M.N., Yao, S.C., 1989. The effects of heat treatment on the chromium depletion, precipitate evolution, and corrosion resistance of Inconel Alloy 690. Metallurgical Transactions A 20, 2057 – 2067. Kaushik, C.P., Mishra, R.K., Sengupta, P., Kumar, A., Das, D., Kale, G.B., 2006. Barium borosilicate glass - a potential matrix for immobilization of sulfate bearing high-level radioactive liquid waste. Journal of Nuclear Materials 358, 129-138. Kaushik, C.P., 2013. Indian Program for Vitrification of High Level Radioactive Liquid Waste. Procedia Materials Science, 16 – 22. Kuang, W., Song, M., Was, G.S., 2018. Insights into the stress corrosion cracking of solution annealed alloy 690 in simulated pressurized water reactor primary water under dynamic straining. Acta Materialia 151, 321-333. Kumar, S., Singh J.B., 2022. Creep behaviour of alloy 690 in the temperature range 800 -1000 C. Journal of material research and technology 17, 1553-569. Li, H., Xia, S., Zhou, B., Peng, J, 2013. The growth mechanism of grain boundary carbide in Alloy 690. Materials Characterization 81, 1-6 Moss, T., Was, G.S., 2017. Accelerated stress corrosion crack initiation of Alloys 600 and 690 in hydrogenated supercritical water, Metallurgical and Materials Transactions 48, 1613-1628. Special Metals. Inconel® alloy 690 (UNS N06690, W.Nr. 2.4642) Stiller, K., Nilsson J.O., Norring, K., 1996. Structure chemistry and stress corrosion cracking of grain boundaries in alloys 600 and 690, Metallurgical and Materials Transactions A 27, 327-341. Symons, D.M., 1998. The Effect of Carbide Precipitation on the Hydrogen Enhanced Fracture Behavior of Alloy 690. Metallurgical and Materials Transactions 29a, 1265-77. Yonezawa, T., Hashimoto, A., 2021. Effect of cold working and long-term heating in air on the stress corrosion cracking growth rate in commercial alloy 690 exposed to simulated PWR primary water. Metallurgical And Materials Transactions 52 A, 101-115. Zhu, X.K., 2015. Advances in fracture toughness test methods for ductile materials in low constraints conditions. 14th International conference on Pressure Vessel Technology Procedia Engg. 130, 784-802.