[Back to Results | New Search]

Student Number 89323026 Author Ming-Huei Wang(王銘輝) Author's Email Address s9323026@cc.ncu.edu.tw Statistics This thesis had been viewed 1923 times. Download 1100 times. Department Mechanical Engineering Year 2001 Semester 2 Degree Master Type of Document Master's Thesis Language zh-TW.Big5 Chinese Title Study of the multi-cracks growth in a finite plate Date of Defense 2002-07-04 Page Count 61 Keyword crack stress intensity factor Abstract In this thesis, the intensity factors , of multi edge-cracks are investigated by ANSYS. Once the is large than the the crack length growths. It is forward this existed a demarcation curve of the second crack below which this crack. However, as the second crack length beyond the demarcation curve both crack growth with different behavior the major crack starts with a smaller then accelerates the growth behavior to the simulation as the second crack length becomes under the demarcation curve at which the second crack stop its growing. Table of Content 摘要……………………………………………………………………..I

第一章緒論………………………………………………………....1

第二章裂紋成長理論簡介………………………………………....5

第三章 數值模擬分析……………………………………………...16

第四章 多裂紋之交互作用………………………………………...29

第五章結論與建議………………………………………………...46

參考文獻…………………………………………………………..……48Reference 1.Tada, H., Paris, P.C. and Irwin, G.R., The stress analysis of crack handbook, Del Research Corporation (1973).

2.Sih, G.C., Handbook of stress intensity factors, Inst. of Fracture and solid Mechanics, Lehigh University (1973).

3.Rooke, D.P., Baratta, F.L. and Carwright, D.J., Simple methods of determining stress intensity factors, Practical applications of fracture mechanics, AGARDograph 257 (1980).

4.A. Wohler, Uber die Festigkeitversuche mit Eisen und Stahl, Zeitschrift fur Bauwesen, Vol. VIII, X, XIII, XVI, and XX, 1860/70. Englishaccount of this work is in Engineering, Vol. 11, 1871.

5.Griffith, A.A., The phenomena of rupture and flow in solids. Phil. Trans. Roy. Soc. Of London, A 221 pp. 163-197(1921).

6.Griffith, A.A., The theory of rupture, Proc. 1st Int. Congress Appl. Mech., (1924) pp.55-63. Biezeno and Burgers ed. Waltman (1925).

7.G. R. Irwin, Fracture Dynamics Fracturing of Metals, American Society for Metals, Cleveland, OH, pp. 147-166 (1949).

8.G. R. Irwin, Analysis of Stresses and Strains near the End of a Crack Travrsing a Plate, Transaction of the ASME, Journal of Applied Mechanics, Vol. 24, 1957, pp. 361-364.

9.Paris, P.C., The growth of fatigue cracks due to variations in load, Ph.D. Thesis Lehigh University (1962).

10. Paris, P.C., Gomez, M.P. and Anderson, W.E., A rational analytic theory of fatigue, The Trend in Engineering, 13 pp. 9-14 (1961).

11. J. B. Chang, Round-Robin Crack Growth Predictions on Center-Cracked Tension Specimens Under Random Spectrum Loading, Methods and Models for Predicting Fatigue Crack Growth Under Random Loading, ASTM STP 748, pp. 3-40 (1981).

12. H. Alawi and M. Shaban, Fatigue Crack Growth Under Random Loading, Engineering Fracture Mechanics, Vol. 32, No. 5, pp. 845-854,(1989).

13.張士田 “隨機負荷下機件疲勞動態可靠度退化模式探討”國立中央大學 碩士論文 (1994).

14. Iida, S. and Kobayashi, A.S., Crack Propagation rate in 7075-T6 plates under cyclic tensile and transverse shear loading, J. Basic Eng. pp. 764-769 (1969).

15. Erdogan, F. and Sih, G.C., On the crack extension in plates under plane loading and transverse shear, J. Basic Eng., 85 pp. 519-527(1963).

16. Sih, G.C., Strain energy density factor applied to mixed mode crack problem, Int. J. Fracture, 10 pp. 305-322 (1974).

17. Broek, D. and Rice, R.C., Fatigue crack growth properties of rail steels, Battelle report to DOT/TC (1976).

18. Williams, J.G., and Ewing, PD., Fracture under complex stress-The angled crack problem, Int. J. Fract. Mech., 8 pp. 441-446(1972).

19. Roberts, R. and Kibler, J.J., Mode II fatigue crack propagation. J. of Basic Engineering 93 pp.671-680(1971).

20. V. E. Saouma, and I. J. Zatz, An Automated Finite Element Procedure for Fatigue Cracks Propagation Analysis, Engineering Fracture Mechanics, Vol. 20, No. 2, 1984, pp. 321-333.

21. J. Padovan, and Y. H. Guo, "Moving Template Analysis of Crack Growth–1. Procedure Development," Engineering Fracture Mechanics, Vol. 48, No. 3, 1994, pp. 405-425.

22. T.Belytschko.y.y.Lu and L. Gu Crack Propagation By Element-Free Galerkin, Engineering Fracture Mechanics Vol 51 No 2, pp, 295-315, 1995.

23. Eshelby, J.D., Calculation of energy release rate. In Prospects of Fracture Mechanics, pp. 69-84. Sih, Van Elst, Broke, Ed., Noordhoff (1974).

24. Knowles, J.K. and Sternberg, E., On a class of conservation laws in linearized and finite elastics, Arch. For Rational Mech. And Analysis, 44 pp. 187-211(1972).

25. Cherepanov, G.P., Crack propagation in continuous media. USSR, J. Appl. Math. And Mech. Translation 31 p.504(1967).

26. Rice, J.R., A path independent integral and the approximate analysis of strain concentrations by notches and crack, J. Appl. Mech., pp.379-386(1968).

27.沈國瑞 “無元素分析之積分權值調整法”國立中央大學碩士論文 （2002）.

28. J. Padovan, and Y. H. Guo, "Moving Template Analysis of Crack Growth–1. Procedure Development," Engineering Fracture Mechanics, Vol. 48, No. 3, 1994, pp. 405-425.

29.Broek David, Elementary Engineering Fracture Mechanics Graw Hill , Inc . , N . Y . , (1986).

30.Tang,J. and Spencer,B.F.Jr,Reliability Solution for the Stochastic Fatigue Crack Growth Problem, Engineering Fracture Mechanics, Vol.34,No.2,pp.419-433(1989).Advisor Kuo-shong Wang(王國雄)

Files approve immediately

89323026.pdf Date of Submission 2002-07-19

Our service phone is (03)422-7151 Ext. 57407,E-mail is also welcomed.