PSI - Issue 28

Casper Versteylen et al. / Procedia Structural Integrity 28 (2020) 1918–1929 Versteylen/ Structural Integrity Procedia 00 (2020) 000–000

1929

12

Wallin, K. 1984. The scatter in K 1c -results. Engineering Fracture Mechanics 19, 1085-1093. Tanguy. B., 2003. Comment on “Effect of carbide distribution on the fracture toughness in the transition temperature region of an SA 508 steel”. Scripta Materialia 49, 191-197. Tanguy, B., Besson, J., Piques, R., Pineau, A., 2005. Ductile to brittle transition of an A508 steel characterized by Charpy impact test, part II., Modeling of the Charpy transition curve. Engineering Fracture Mechanics 72, 431-434. Yang, Z. Liu, Z., He, X., Qiao, S., Xie, C., 2018. Effect of microstructure on the impact toughness and temper embrittlement of SA508Gr.4N steel for advanced pressure vessel materials. Scientific Reports 8, 207. Smith, R., Giannuzzi, T., Weicks, J., "Technical Justification for Applying the PWHT Exemptions of NB-4620 to Weld Overlays on P-No. 1 Materials". Section II Materiarls part D Properties, ASME BPVC.II.D.C.-2017, ASME Boiler and Pressure Vessel Code, New York ASME. 2017. Kim, J.S., Lee, H.S., Kim, J.S., Kim, Y.J., Kim, J.W. 2015. Strain-based plastic instability acceptance criteria for ferritic steel safety class 1 nuclear components under level D service loads. Nuclear Engineering and Technology 47, 340-350. Section II-A, ASME BPVC.II.D.C.-2017, ASME Boiler and Pressure Vessel Code, New York ASME 2017. Heerens, J., Hellmann, D. 2002. Development of the Euro fracture toughness dataset. Engineering fracture mechanics 69, 421-449. Kim, M. C., Park, S. G., Lee, K. H., Lee, B. S. 2002. Comparison of fracture properties in SA508 Gr.3 and Gr.4N high strength low alloy steels for advanced pressure vessel materials. International Journal of Pressure Vessels and Piping 131, 60-66. Versteylen, C.D., van Dijk, N.H., Sluiter, M.H.F. 2017. First-principles analysis of solute diffusion in dilute bcc Fe-X alloys. Physical review B 96, 094105. Domain C. 2006. Ab initio modelling of defect properties with substitutional and interstitials elements in steels and Zr alloys. Journal of nuclear materials 351, 1-19. Hojo, K., Ogawa, N., Hirota, T., Yoshimoto, K., Nagoshi, Y. Kawabata, S., 2016. Application of coupled damage and beremin model to ductile brittle transition temperature region considering constraint effect. Procedia Structural Integrity 2, 1643-1651. Tanguy, B., Bouchet, C., Bugat, S., Besson, J. 2006. Local approach to fracture based prediction of the ∆ ��� and ∆ � ������ shifts due to irradiation for an A508 pressure vessel steel. Engineering Fracture Mechanics 73, 191-206.

Made with FlippingBook Ebook Creator