PSI - Issue 60

Md Rakim et al. / Procedia Structural Integrity 60 (2024) 298–310 Md Rakim et al. / Structural Integrity Procedia 00 (2023) 000 – 000

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Singh, A.N., Moitra, A., Bhaskar, P., Sasikala, G., Dasgupta, A., Bhaduri, A.K., 2018. Effect of thermal ageing on microstructure, hardness, tensile and impact properties of Alloy 617, Materials Science & Engineering A 710, 47 56. Strizak, J.P., Brinkman, C.R., Booker, M.K., Rittenhouse, P.L., 1982. Influence of temperature, environment, and thermal ageing on the continuous cycle fatigue behaviour of Hastelloy X and Inconel 617. International Nuclear Information System 14. Oak Ridge National Lab, United States, pp. 50. Wang, Z., Muransky, O., Zhu, H., Wei, T., Sokolova, A., Short, K., Wright, R.N., 2020. On the kinetics of gamma prime ( γ´ ) precipitation and its strengthening mechanism in Alloy 617 during a long-term thermal ageing. Materialia 11, 100682. Wu, Q., 2006. Microstructural evolution in advanced boiler materials for ultra-supercritical coal power plants. PhD thesis, Division of Research and Advanced Studies of the University of Cincinnati. Zheng, L., Schmitz, G., Meng, Y., Chellali, R., Schlesinger, R., 2012. Mechanism of intermediate temperature embrittlement of Ni and Ni-based superalloys. Critical Reviews in Solid State and Materials Sciences 37, 181-214.