Effects of process-generated hydrogen on RPV walls
Bibliography
[27] W. F. Bogaerts, D. D. Macdonald, J.H. Zheng, and A.S. Jovanovic. Hydrogen and NPP Life Management : Doel 3 and Pressure Vessel Walls affected by Hydrogen Flaking. Technical Report September, 2015. [28] D. a. Mirzayev, E. a. Fominykh, O. K. Tokovoi, N. I. Vorob’ev, D. V. Shaburov, and I. L. Yakovleva. Scanning electron microscopy of the flake structure in the forgings of structural alloy steel containing 0.4% carbon. The Physics of Metals and Metal lography , 103(3):292–298, mar 2007. [29] C C Eiselt, J May, and H Hein. Influence of segregations and hydrogen flakes on the mechanical properties of forged RPV steels. In 39th MPA- Seminar , page 18, Stuttgart, 2013. [30] T. Hardin. Materials Reliability Program : Evaluation of the Reactor Vessel Beltline Shell Forgings of Operating U.S. PWRs for Quasi-Laminar Indications. Technical report, Electric Power Research Institute, 2013. [31] J Ćwiek. Prevention methods against hydrogen degradation of steel. Journal of Achievements in Materials and Manufacturing Engineering , 43(1):214–221, 2010. [32] J Hanneken. Hydrogen in metals and other materials: a comprehensive reference to books, bibliographies, workshops and conferences. International Journal of Hydrogen Energy , 24(10):1005–1026, oct 1999. [33] Vladimir Blagojević, Dejan Minić, Jasmina Novaković, and Dragica Minić. Hy- drogen Economy: Modern Concepts, Challenges and Perspectives. In Hydrogen Energy - Chal lenges and Perspectives , pages 3–28. InTech, oct 2012. [34] Qian Liu and Andrej Atrens. A critical review of the influence of hydrogen on the mechanical properties of medium-strength steels. Corrosion Reviews , 31(3-6):85–103, jan 2013. [35] D. E. Jiang and Emily A. Carter. Diffusion of interstitial hydrogen into and through bcc Fe from first principles. Physical Review B , 70(6):064102, aug 2004. [36] Jarmila Woodtli and Rolf Kieselbach. Damage due to hydrogen embrittlement and stress corrosion cracking. Engineering Failure Analysis , 7(6):427–450, dec 2000. [37] Anthony W Thompson and I M Bernstein. The Role of Metal lurgical Variables in Hydrogen-Assisted Environmental Fracture , pages 53–175. Springer US, Boston, MA, 1980. [38] B A Szost, R H Vegter, and Pedro E. J. Rivera-Díaz-del Castillo. Hydrogen- Trapping Mechanisms in Nanostructured Steels. Metal lurgical and Materials Transactions A , 44(10):4542–4550, oct 2013. 123
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