综述了应力腐蚀破裂寿命预测的模型与方法.以核电工程材料在高温水中的应力腐蚀破裂为重点,分析了几种重要的寿命预测方法的特点与局限性.
参考文献
| [1] | Ford F P, "Mechanism of Environmental Cracking Peculiar to Power Generation Industry", Report NP 2589, (Sept.1982), EPRI. Palo Alto. |
| [2] | Parkins R N, Singh P M. Corrosion, 1990, 46:485 |
| [3] | 乔利杰,王燕斌,褚武扬.应力腐蚀机理.北京:科学出版社,1993.20 |
| [4] | Sui G, Heys G B, Congleton J. Mechanism of PWSCC of Alloy 600 and Alloy 690, presented at ICG-EAC 1997 Meeting, April 6-9, 1997, Bristol UK. |
| [5] | Yang W, Zhang M, Zhao G, Congleton J. Corrosion, 1991, 47(4):226 |
| [6] | Yang W, Zhao G, Zhang M, Congleton J. Corros.Sci., 1992, 33(1):89 |
| [7] | 杨武,张美杰,赵国珍,Congleton J.中国腐蚀与防护学报,1992,12(1):83 |
| [8] | Ford F P. Corrosion, 1996, 52(5):375 |
| [9] | Parkins R N, "Laboratory Measurement and Life Prediction for Structures Suffering SCC", Proc. Int. Symp. on Plant Aging and Life Prediction of Corrodible Structures, Sapporo, Japan, May 15-18, 1995. Pub. NACE International, 1997. p1 |
| [10] | Shibata T. Corrosion, 1996, 52(11):813 |
| [11] | Akahi T, Kawamoto T. Bosyoku Gijyutu(防食技术),1983, 32:9 |
| [12] | Rosborg B. Possibility and Limitation with the Modern Techniques to Measure Crack Growth Rate. Proc. Int. Symp. on Plant Aging and Life Prediction of Corrodible Structures, Sapporo, Japan, May 15-18, 1995. Pub. NACE International, 1997,365 |
| [13] | Ford F P, Andresen P L. Development and Use of a Predictive Model of Crack Propagation in 304/316L, A533B/A508B and Inconel 600/182 Alloys in 288℃Water, Environmental Degradation of Materials in Nuclear Power Systems. ed. Theus G J, Weeks J R, The Metallurgical Society, 1988, 789 |
| [14] | Macdonald D D, Lu P C, Macdonald M U, Yeh T K, Corrosion 1996, 52(10):768 |
| [15] | Macdonald D D, Macdonald M U, Corros. Sci., 1991,32(1):51 |
| [16] | Turnbull A, Ferris D H. Corros. Sci., 1987, 27(12):1323 |
| [17] | Turnbull A. Corros. Sci., 1997, 39(4):789 |
| [18] | Jiang X, Staehle R W. A Chemical/Mechanical Model for Correlating Stress Corrosion Cracking. Proc. Int. Symp. on Plant Aging and Life Prediction of Corrodible Structures, Sapporo, Japan, May15-18, 1995. Pub. NACE International, 1997,59 |
| [19] | Andresen P L, Ford F P, Materials Science and Engineering, 1988, A103:167 |
| [20] | Sudo A, Itow M. SCC Propagation of Sensitized Materials in BWR Environment. Proc. Int. Symp. on Plant Aging and Life Prediction of Corrodible Structures, Sapporo, Japan, May 15-18, 1995. Pub. NACE International, 1997,903 |
| [21] | Andresen P L. Conceptual Similarities and Common Predictive Approaches for SCC in High Temperature Waters, Corrosion'96 (Houston, TX:NACE International, 1996) |
| [22] | Ford F P, Andresen P L, Solomon H D, et al. "Application of Water Chemistry Control, On-Line Monitoring and Crack Growth Rate Models for Improved BWR Materials Performance", Fourth Int. Symp. on Environmental Degradation of Materials in Nuclear Power System-Water Reactors, NACE, 1990, 4 |
| [23] | Ford F P, Andresen P L, "Corrosion in Nuclear Systems: Environmentally Assisted Cracking in Light Water Reactors", in "Corrosion Mechanism", Ed. Marcus P, Ouder J, Marcel Dekker, 1994, 501 |
| [24] | Tsuruta T, Okamoto S. Corosion, 1992,48:518 |
| [25] | Rebak R B, Szklarska-Smialowska Z. Corrosion, 1995, 51:689 |
| [26] | Post R, Le Maire J. Statistical Approach to Qualify Countermeasures, Proc. Seminaron Countermeasures for BWR Cracking, Electric Power ResearchInst. Palo Alto, CA, January, 22-24, 1980, EPRI-WS-174, Vol.1 |
| [27] | Yamauchi K, Hattori S, Kuniya J, et al. Methodology for Formulating Predictions of Degradation of Plant Components Induced by Synergistic Effect of Various Influencing Factors. Proc. Int. Symp. on Plant Aging and Life Prediction of Corrodible Structures, Sapporo, Japan, May15-18, 1995. Pub. NACE International, 1997,69 |
| [28] | Scott P, Meyzaud Y, Benhamou C. Prediction of Stress Corrosion Cracking of Alloy 600 Components Exposed to PWR Water. Proc. Int. Symp. on Plant Aging and Life Prediction of Corrodible Structures, Sapporo, Japan, May15-18, 1995. Pub. NACE International, 1997,285 |
| [29] | Parkins R N. Corrosion, 1987, 43:130 |
| [30] | Parkins R N, Singh P M. Corrosion, 1990, 46:485 |
| [31] | Andresen P L, VasatisI P, Ford F P, "Behavior of Short Cracks in Stainless Steel at 288℃," CORROSION'90, Paper No.495 (Houston,TX:NACE) |
| [32] | Akashi M, Nakayama G, "Stress-Corrosion Crack Initiation Process Model for BWR Plant Materials", Proc. Int. Symp. on Plant Aging and Life Prediction of Corrodible Structures, Sapporo, Japan, May15-18, 1995. Pub. NACE International, 1997. 99 |
| [33] | Sui G, Heys G B, Congleton J. Stress Corrosion Cracking of Alloy 600 and Alloy 690 in Hydrogen/Steam and PWR Primary Side Water. To be presented in 8th Inter. Sym. on Environs. Degrad. of Mat. in Nuc. Pow. Sys.-Wat. React. 10-14 Aug. 1997. Amelia Island, USA |
| [34] | Turnbull A, Br. Corros. J., 1992, 27(4):271 |
| [35] | Catlin W R, Lord D C, Prater T A, et al. "The Reversing D-C Electrical Potential Method", Automated Test Methods for Fracture and Fatigue Crack Growth, ASTM STP877, ASTM, 1985 |
| [36] | Vander Sluys W A, Pathania R. "Studies of Stress Corrosion Cracking in Steels Used for Reactor Pressure Vessels", Proc. Fifth Int. Sym. on Environmental Degradation of Materials in Nuclear Power Systems-Water Reactors (La Grange Park, IL:American Nuclear Society). 1992, 571 |
| [37] | Suzuki S. "SCC Initiation and Propagation Study of SUS304 in High Temperature Water by ACPD", Proc. Int. Symp. on Plant Aging and Life Prediction of Corrodible Structures, Sapporo, Japan, May 15-18, 1995. Pub. NACE International, 1997, 379 |
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