참고문헌
- Ando, K., Fujibayashi, S., Nam, K. W., Takahashi, M. and Ogura, N., 1987, 'The Fatigue Life and Crack Through-Thickness Behaviour of a Surface-Cracked Plate (for the Case of Tensile Load),' JSME Int. J., Vol. 30, pp. 1898-1905 https://doi.org/10.1299/jsme1987.30.1898
- ASME. 1995, Boiler and Pressure Vessel Code Sec. XI.
- Bergman, M., 1995, 'Stress Intensity Factors for Circumferential Surface Cracks in Pipes,' Fatigue Fract. Engng Mater. Struct., Vol. 18, pp. 1155-1172 https://doi.org/10.1111/j.1460-2695.1995.tb00845.x
- Choi, C. Y., Kwon, J. D., and Sul, I. C., 2001, 'Application of the Leak Before Break(LBB) Concept to a Heat Exchanger in a Nuclear Power Plant,' KSME International Journal, Vol. 15, pp. 10-20
- Efits, J. and Liebowitz, H., 1972, 'On the Modified Westergaard Equations for Certain Plane Crack Problems,' Int. J. Fract. Mech., Vol. 8, pp. 383-392 https://doi.org/10.1007/BF00191100
- Hasegawa, K., Sakata, S., Simizu, T. and Shida, S., 1983, 'Prediction of Fracture Tolerances for Stainless Steel Pipes with Circumferential Cracks,' ASME Int. J. Press. Ves. Piping, Vol. 95, pp. 65-78
- Hasegawa, K., Okamoto, A., Yokota, H., Yamamoto, Y., Shibata, K., Oshibe, T. and Matsumura, K., 1991, 'Crack Opening Area of Pressurized Pipe for Leak-Before-Break Evaluation,' JSME Int. J., Vol. 34, pp. 332-338
- Hodulak, L., Kordisch, H., Kunzelamnn, S. and Sommer, E., 1979, 'Growth of Part-Through Cracks,' ASTM STP 677, pp. 399-410
- Huh, N. S., Kwak, D. O., Kim, Y. J., Yu, Y. J. and Pyo, C. R., 2000, 'Effect of Nozzle on Leak-Before-Break Analysis Result of Nuclear Piping,' J. KSME. Kor., Vol. 24, pp. 2796-2803
- Kashima, K., 1986, 'Analysis of Leak-Before-Break for Stainless Steel Piping in Light Water Reactor. Doctoral thesis, Tokyo University
- Kawahara, M. and Kurihara, M., 1975, 'A Preliminary Study on Surface Crack Growth in a Combined Tensile and Bending Fatigue Process,' J. Soc. Naval Arch. Jpn., Vol. 137, pp. 297-306
- Kim, Y. J., Huh, N. S. and Kim, Y. J., 2001, 'New Engineering Estimation Method of J-Integral and COD for Circumferential Through-Wall Cracked Pipes,' J. KSME. Kor., Vol. 25, pp. 548-553
- Miyoshi, T. and Yoshida, Y., 1988, 'Analysis of Stress Intensity Factor of Surface Cracks in Pre and Post Penetration,' Jap. Soc. Mech. Engrs., Vol. 54, pp. 1771-1777 https://doi.org/10.1299/kikaia.54.1771
- Nam, K. W., Ando, K. and Ogura, N., 1993, 'The Effect of Specimen Size on the Behavior of Penetrating Fatigue Cracks,' Fatigue Fract. Engng Mater. Struct., Vol. 16, pp. 767-779 https://doi.org/10.1111/j.1460-2695.1993.tb00118.x
- Nam, K. W., 1991, 'The Fatigue Life and Crack Penetration Behavior of High-Strength Steel' J. KSME. Kor., Vol. 15, pp. 1990-2001
- Nam, K. W., Ando, K. and Ogura, N., 1995, 'Surface Fatigue Crack Life and Penetration Behavior of Stress Concentration Specimen,' Engng Fract. Mech., Vol. 51, pp. 161-166 https://doi.org/10.1016/0013-7944(94)00235-A
- Nam, K. W., Ando, K., Ogura, N. and Matui, K., 1994, 'Fatigue Life and Penetration Behaviour of a Surfaced-Cracked Plate under Combined Tension and Bending,' Fatigue Fract. Engng Mater. Struct., Vol. 17, pp. 873-882 https://doi.org/10.1111/j.1460-2695.1994.tb00817.x
- Newman, J. C. Jr. and Raju, I. S., 1981, 'An Empirical Stress Intensity Factor Equation for the Surface Crack,' Engng Fract. Mech., Vol. 15, pp. 185-192 https://doi.org/10.1016/0013-7944(81)90116-8
- Sakai, T., Takashima, H., atsumae, H. and Yajima, H., 1975, 'Studies on Nine Percent Nickel Steel for Liquefied Natural Gas Carriers,' ASTM STP 579, pp. 205-237
- Shibata, K., Yokoyama, N., Ohba, T., Kawamura, T. and Miyazono, S., 1986, 'Growth Evaluation of Fatigue Cracks from Multiple Surface Flaws(Ⅱ),' J. Atomic Energy Soc. Jpn., Vol. 28, pp. 258-265 https://doi.org/10.3327/jaesj.28.258
- Yano, T., Matsushima, E. and Okamoto, A., 1987, 'Leak Flow Rate from Through-Wall Crack in Pipe,' In The 2nd ASME-JSME Thermal Engineering Joint Conference, Hawaii