PWSCC growth rate model of alloy 690 for head penetration nozzles of Korean PWRs |
Kim, Sung-Woo
(Nuclear Materials Safety Research Division, Korea Atomic Energy Research Institute)
Eom, Ki-Hyun (Nuclear Materials Safety Research Division, Korea Atomic Energy Research Institute) Lim, Yun-Soo (Nuclear Materials Safety Research Division, Korea Atomic Energy Research Institute) Kim, Dong-Jin (Nuclear Materials Safety Research Division, Korea Atomic Energy Research Institute) |
1 | ASME Boiler and Pressure Vessel Code, Section III, Rules for Construction of Nuclear Power Plants, Division 1, Subsection NH, Paragraph NH-4212, ASME International, New York, NY, 2007. |
2 | T. Yonezawa, T. Maeguchi, T. Goto, H. Juan, Quantitative residual strain analyses on strain hardened nickel based alloy, in: Proc. 15th Int. Conf. On Env. Deg. Mater. Nucl. Power Syst. - Water Reactors, Colorado Springs, 2011, pp. 1759-1771. |
3 | T. Maeguchi, K. Sakima, K. Sato, K. Fujimoto, Y. Nagoshi, K. Tsutsumi, PWSCC susceptibility of alloy 690, 52 and 152, in: Proc. 18th Int. Conf. On Env. Deg. Mater. Nucl. Power Syst, Water Reactors, Portland, 2017, pp. 485-500. |
4 | S. Suzuki, T. Shoji, Y.-S. Li, J.K. Kim, Theoretical SCC crack growth prediction under various loading modes in high temperature water, in: Proc. 8th Int. Symp. On Env. Deg. of Mater. in Nucl. Power Syst. - Water Reactors, LaGrange Park, 1997, pp. 695-703, 1997. |
5 | Y. Gao, K. Hwang, Elastic-plastic fields in steady crack growth in a strain-hardening materials, in: Advances in Fracture Research, 5th Int. Conf. On Fracture, Cannes France, 1981, pp. 669-682. |
6 | M.M. Hall Jr., Corros. Sci. 50 (2008) 2902. DOI |
7 | E. Eason, R. Pathania, Crack tip strain rate models for environmentally-assisted fatigue crack growth in light water reactor environments, in: Proc. ASME 2016 Pressure Vessels and Piping Conf., Vancouver, 2016. Paper No. PVP2016-63640. |
8 | S.S. Hwang, Y.S. Lim, S.W. Kim, D.J. Kim, H.P. Kim, Nucl. Eng. Tech. 45 (2013) 73-80. DOI |
9 | P.M. Scott, An overview of materials degradation by stress corrosion cracking in PWRs, in: D. Feron, J.M. Olive (Eds.), Corrosion Issues in Light Water Reactors - Stress Corrosion Cracking, Woodhead Publishing Ltd., New York, 2007. |
10 | P.L. Andresen, J. Hickling, A. Ahluwalia, J. Wilson, Corrosion 64 (2008) 707-720. DOI |
11 | S.W. Kim, T.Y. Ahn, Y.S. Lim, S.S. Hwang, Arch. Metall. Mater. 62 (2017) 1243-1248. DOI |
12 | Materials Reliability Program (MRP), Crack Growth Rates for Evaluating Primary Water Stress Corrosion Cracking (PWSCC) of Thick-Wall Alloy 600 Materials (MRP-55) Revision 1, EPRI, Palo Alto, CA, 2002, p. 1006695. |
13 | P.L. Andresen, Unusual cold work and strain rate effects on SCC, in: Proc. 14th Int. Conf. On Env. Deg. Mater. Nucl. Power Syst, Water Reactors, Virginia, 2009, pp. 805-845. |
14 | S.M. Bruemmer, M.J. Olszta, M.B. Toloczko, L.E. Thomas, Corrosion 69 (2013) 953-963. DOI |
15 | S.W. Kim, S.S. Hwang, J.M. Lee, Corrosion 71 (2015) 1071-1081. DOI |
16 | Materials Reliability Program (MRP), Crack Growth Rates for Evaluating Primary Water Stress Corrosion Cracking (PWSCC) of Thick-Wall Alloy 600 Materials and Alloy 82, 182, and 132 Welds (MRP-420), EPRI, Palo Alto, CA, 2017, p. 3002010758. |
17 | S.A. Attanasio, D.S. Morton, Measurement of the nickel/nickel oxide transition in N-Cr-Fe alloys and updated data and correlations to quantity the effect of aqueous hydrogen on primary water SCC, in: Proc. 11th Int. Conf. On Env. Deg. Mater. Nucl. Power Syst, Water Reactors, Stevenson, 2003, pp. 143-155. |
18 | Materials Reliability Program (MRP), Recommended Factors of Improvement for Evaluating Primary Water Stress Corrosion Cracking (PWSCC) Growth Rates of Thick-Wall Alloy 690 Materials and Alloy 52, 152, and Variants Welds (MRP-386), EPRI, Palo Alto, CA, 2017, p. 3002010756. |
19 | ASTM Standard E 399, Standard Test Method for Linear-Elastic Plane-Strain Fracture Toughness KIC of Metallic Materials, ASTM International, West Conshohocken, PA, 2007. |
20 | ASTM Standard E 647, Standard Test Method for Measurement of Fatigue Crack Growth Rates, ASTM International, West Conshohocken, PA, 2005. |