Browse > Article

An Evaluation Method of Probability of Elastic-Plastic Fracture by 2-Parameter Criterion  

Kim, Tae-Sik (Major in Mechanical Engineering, Dong-A In Jae College)
Yoon, Han-Yong (Department of Mechanical Engineering, Mokpo National University)
Lim, Myung-Hwan (Training Ship, Mokpo Maritime University)
Jung, Ui-Jung (Department of Mechanical Engineering, Mokpo National University)
Publication Information
Journal of Mechanical Science and Technology / v.18, no.1, 2004 , pp. 55-64 More about this Journal
Abstract
Many researchers have made a lot of progress in studying the evaluation of fracture probability of brittle materials. However, studies of fracture probability for elastic-plasticity have not been made yet. An evaluation method for fracture probability which is grafted onto a 2-parameter criterion and statistical probability analysis is not only introduced in this study, but also applied to the simple 2-dimensional model and carbon steel piping to vealuate the effect of statistical variables.
Keywords
Fracture Probability; Elastic-Plastic Fracture; 2-Parameter Criterion; Failure Assessment Diagram; Carbon Steel Pipes;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
연도 인용수 순위
1 Kobayashi, H., Nakamura, H., and Kashiwagi, K., 1987, 'Two-Parameter Approach to Elastic Plastic Fracture and Failure Assessment Digram (Application to Carbon Steel for PiPing),' J. JSME (in Japanese), Ver. 53, No. 496, pp. 2362-2369
2 Kobayashi, H., Nakamura, H. and Kashiwagi, K., 1987, 'Evaluation of Elastic-Plastic Francture Toughness and Fracture Resistance of Carbon Steel STS42 (Comparison of JSME and ASTM Methods),' J. JSME (in Japanese), Ver. 53, No. 494, pp. 1905-1912   DOI
3 Milne, I., 1983, 'Failure Assessment Digrams and J Estmate:A Comparison for Ferritic and Austenite Steel,' Int. J. Press. Ves. & Piping, Vol. 13, pp. 107-125   DOI   ScienceOn
4 Nilsson, F. A., 1979, 'Model for Fracture Mechanical Estimation of the Failure Probability of Reactor Pressure Vessels,' Pressure Vessel Technology, Part II, Third National Conference, Tokyo, pp. 593-601
5 Okamura, H., Watanabe, K. and Naito, Y., 1975, 'Reliability Approach in Structural Engineering,' Maruzen, pp. 244-257
6 Okamura, H. and Itagaki, H., 1983, Statistical Treatment of Strength, Baihukan (in Japanese)
7 Shih, C. F., Kumar, V. and German, M. D., 1983, 'Elastic-Plastic Fracture : 2nd Symposium Vol II : Fracture Curves and Engineering Applications,' ASTM STP 803, pp. 239-241
8 Okamura, H. and Itagaki, H., 1983, Statistical Treatment of Strength, Baihukan (in Japanese), p. 105
9 Provan, J. W., 1987, 'Probabilistic Approaches to the Material-Related Reliability of Fracture-Sensitive Structures,' Probabilistic Fracture Mechanics and Reliability, Martinus Nijhff Publishers, pp. 1-45
10 Tada, H., Paris, P. and Irwin, G., 1985, 'The Stress Analysis of Cracks Handbook, 2nd edition, p. 84
11 Virkler, D. A., Hillbery, B. M. and Goel, P. K., 1979, 'The Statistical Nature of Fatigue Crack Propagation,' Trans. ASME, Vol. 101, pp. 148-152
12 Jouris, G. M. and Shaffer, D. H., 1980, 'Methodology for Inferring Intial Flaw Distribution,' Nucl. Eng. Des., 60, p. 437   DOI   ScienceOn
13 Yoon, H. and Okamura, H., 1989, 'Probabilistic Prediction of the Fatigue Crack Propagation Life of a Semielliptical Surface Crack,' J. JSME (in Japanese), Ver. 55, No. 513, pp. 1095-1100   DOI
14 Yoon, H., 1990, 'A Study on the Probabilistic Nature of Fatigue Crack Propagation Life (2)-The Distribution of Crack Propagation Rate-,' J. KSME (in Korean), Ver, 14, No. 6, pp. 1561-1567   과학기술학회마을
15 Anderson, T. L., 1995, Fracture Mechanics, CRC Press, p. 622
16 Besuner, P. M. and Tetelman, A. S., 1977, 'Probabilistic Fracture Mechanics,' Nuclear Engineering and Design, Vol. 43, pp. 99-107   DOI   ScienceOn
17 Bloom, J. M., 1984, 'Probabilistic Fracture Mechanics-A State of the Art Review,' Advances in Probabilistic Fradture Mechanics, ASME PVP-Vol. 92, pp. 1-19
18 Bloom, J. M., 1983, 'Elastic-Plastic Fracture:2nd Symposium Vol II : Fracture Curves and Engineering Applications,' ASTM STP 803, pp. 206-208
19 Dugdale, D. S., 1960, 'Yielding of Steel SheetsContaning Slits,' J. Mech. Phys. Sol., 8, pp. 100-108   DOI   ScienceOn
20 Haris, D. O., 1977, 'A Means of Assesing the Effects of NDE on the Reliability of Cyclically Loaded Structures,' Materials Evaluation, pp. 57-65
21 Kitagawa, H., Kwon, J., Nakasone, Y. and Shimazaki, T., 1986, 'Fatigue Crack Growth Properties in a Long-Service-Degraded Material,' J. JSME (in Japanese), Ver. 52, No. 480, pp. 1749-1756   DOI