References
- 小林 英男, 1992, '經年孫復の非破壤評價と壽命予測,' 安全工學, 제31권, 제2호, p. 76
- 김 영진 외, 1996, '원자력배관 건전성평가 전문가 시스템 개발(1)-평가법 제시 및 재료물성치추론,' 대한기계학회논문집(A), 제20권 제2호, pp. 575-584
- 이 강용 외, 1997, '원자력발전소 가압기 밀림관 노즐의 잔존 피로수명평가,' 대한기계학회논문집(A), 제21권, 제8호, pp. 1259-1269
- 정 순억, 1997, '국산 원자로용기 재료의 피로 및 파괴특성 연구,' 대한기계학회논문집(A), 제21권, 제10호, pp. 1626-1635
- ASME, 1991, ASME PVRC Program on Code Criteria for Cyclic Life and Environmental Effects (draft 3)
- 庄子 哲雄 外, 1994, 火力 原子力および化學 プラント機器 構造部材の年劣化と壽命予測, リアライズ社, 東京都, p. 29
-
Ford, F. P. and Emigh, P. W., 1995, 'The Prediction of The Maximum Corrosion Fatigue Crack Propagation Rate in The Low Alloy Steel de-Oxygenated Water System at
$288^{\circ}C$ ,' Corrosion Science, Vol. 25, No. 8/9, pp. 673-692 - Gabetta, G and Torronen, K., 1985, 'Prediction of Cyclic Crack Growth Rate in L WR Environments,' Proc. of 2nd IAEA Specialists' Meeting on Subcritical Crack Growth, Vol.2, Sendai, May 13-15, pp. 131-154
- 森谷 信一, 1995, '輕水爐壓力壁部材の 應力 食割れ擧動の定 予測に關する硏究,' 日本 東北大學校 博士學位論文, 仙台市, p. 2-25
- ASTM E 399, 1991, 'Standard Test Method for Plane-Strain Fracture Toughness of Metallic Materials.'
- Andresen, P. L., 1981, 'Innovations in Experimental Techniques for Testing in High Temperature Aqueous Environments,' Technical Infomation Series, 81 CRD088, General Electric, N.Y., p. 4
- Shack, W. J., Kassner, T. F., 1994, 'Review of Environmental Effects on Fatigue Crack Growth of Austenitic Stainless Steels,' NUREG /CR-6176, ANL-94/1, p. 7
- Ford, F. P, Taylor, D. F. and Andresen, P. L., 1987, 'Corrosion Assisted Crackin of Stainless and Low Alloy Steels in LWR Environments,' EPRI NP-5046M, Project 2006-6, Final Report, pp. 210
-
Kawakubo, T., Hisida, M., Amano, K., and Katsuta, M., 1980, 'Crack Growth Behavior of Type 304 Stainless Steel in Oxygenated
$290^{\circ}C$ Pure Water Under Low Frequency Cyclic Loading,' Corrosion, Vol. 369, No. 11, pp. 638-647 - 橫堀 武夫, 1989, '先端材科强度と破壞におけゐ疑問点とその解決へのアプロ-チ,' 일본금속학회 회보, 제23권, 제9호, pp. 703-704