Stress ratio and the fatigue damage map - Part I: Modelling

International Journal of Fatigue

Volumn 26, Issue 7, 2004, Pages 739-746

  Rodopoulos, C A ^a   Choi, J H ^b,c   De Los Rios, E R ^b   Yates, J R ^b  

^a SHEFFIELD HALLAM UNIVERSITY   (United Kingdom)

^b UNIVERSITY OF SHEFFIELD   (United Kingdom)

^c Hyundai Motor Co   (South Korea)

Author keywords

Aluminium alloys; Fatigue damage map; Stress ratio

Indexed keywords

ALUMINUM ALLOYS; COMPUTER SIMULATION; CRACK PROPAGATION; PLASTICITY; STRAIN; STRESS ANALYSIS;

FATIGUE DAMAGE MAP; STRESS RATIO;

FATIGUE OF MATERIALS;

EID: 1842843152     PISSN: 01421123     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.ijfatigue.2003.10.017     Document Type: Article

References (49)

1. Christensen R.H. Fatigue crack growth affected by metal fragments wedged between opening-closing crack surfaces. Appl Mater Res. 2:1963;207-210.
2. Elber W. Fatigue crack closure under cyclic tension. Eng Fract Mech. 2:1970;37-45.
3. Elber W. The significance of fatigue crack closure. Damage tolerance in aircraft structures. ASTM STP 486. 1971;230-242.
4. Paris P.C., Bucci R.J., Wessel E.T., Clark W.G., Mager T.R. Extensive study of low fatigue crack growth rates in A533 and A508 steels. Stress analysis and growth of cracks. ASTM STP 513. 1972;141-176.
5. Ritchie R.O., Suresh S., Ross C.M. Near-threshold fatigue crack closure in 2 1/4 Cr-1 Mo pressure vessel steel in air and hydrogen. J Eng Mater Technol. 102:1980;293-299.
6. Vasudevan A.K., Suresh S. Influence of corrosion deposits on near-threshold fatigue crack growth behaviour in 2xxx and 7xxx series aluminium alloys. Metall Trans. 13A:1982;2271-2280.
7. Purushothaman S., Tien J.K. A fatigue crack mechanism for ductile materials. Scripta Metall. 9:1975;923-926.
8. Suresh S. Crack deflection: implications for the growth of long and short fatigue cracks. Metall Trans. 14A:1983;2375-2385.
9. Suresh S. Fatigue of materials. 1st ed. 1991;Cambridge University Press.
10. Vasudevan A.K., Sadananda K., Louat N. Reconsideration of fatigue crack closure. Scripta Metall Mater. 27:1992;1673-1678.
11. Garret G.G., Knott J.F. On the effect of crack closure on the rate of fatigue crack propagation. Int J Fatigue. 13:1977;101-104.
12. Zhang X.P., Wang C.H., Ye L., Mai Y.-W. In situ investigation of small fatigue crack growth in poly-crystal and single-crystal aluminium alloys. Fatigue Fract Eng Mater Struct. 25:2002;141-150.
13. Rodopoulos C.A., de los Rios E.R., Yates J.R. A fatigue damage map for the 2024-T3 aluminium alloy. Fatigue Fract Eng Mater Struct. 26:(7):2003;569-576.
14. Rodopoulos C.A., de los Rios E.R. Theoretical analysis on short fatigue cracks. Int J Fatigue. 24:2002;719-724.
15. Rodopoulos C.A., Yates J.R. Fatigue damage tolerance analysis using the fatigue damage map. Gdoutos E.E. Recent advances in experimental mechanics. 2002;197-202 Kluwer Academic Publishers.
16. Ritchie R.O. Near threshold fatigue crack propagation in steels. Int Met Rev. 24:1979;205-230.
17. Taylor D. Fatigue thresholds: their applicability to engineering situations. Int J Fatigue. 10:1988;67-79.
18. James M.N., Smith G.C. Crack closure and surface microcrack thresholds - some experimental observations. Int J Fatigue. 5:1983;75-78.
19. Lindley T.C. Near threshold fatigue crack growth: experimental methods, mechanisms and applications. Larsson L.H. Subcritical crack growth due to fatigue stress corrosion and creep. 1981;163-213 Elsevier Applied Science.
20. Bulloch J.H. The influence of mean stress or R-ratio on the fatigue crack threshold characteristics of steels - a review. Int J Pressure Vessels Piping. 47:1991;263-292.
21. Ritchie R.O. Near threshold fatigue crack propagation in ultrahigh strength steel: influence of load ratio and cyclic strength. J Eng Technol (Trans ASME, H). 99:1977;195-204.
22. Schmidt R.A., Paris P. Threshold for fatigue crack propagation and the effects of load ratio and frequency. Progress in flaw growth and fracture toughness testing. ASTM STP 536. 1973;79-94 American Society for Testing and Materials.
23. Suresh S., Vasudevan A.K., Bretz P.E. Mechanisms of slow fatigue crack growth in high strength aluminium alloys: role of microstructure and environment. Metall Trans. 15A:1984;369-379.
24. Taylor D. Fatigue thresholds. 1989;Butterworths, London.
25. Rodopoulos C.A., Yates J.R. Fatigue damage tolerant analysis using the fatigue damage map. Batra R.C., Henneke E.G. The 14th US National Congress of Theoretical and Applied Mechanics :2002;197-208 Virginia Tech.
26. Navarro A., de los Rios E.R. Fatigue crack growth modelling by successive blocking of dislocations. Proc R Soc. A437:1992;375-390.
27. de los Rios E.R. Dislocation modelling of fatigue crack growth in polycrystals. Eng Mech. 5:1998;363-368.
28. de los Rios E.R., Navarro A. Considerations of grain orientation and work hardening on short-fatigue-crack modelling. Phil Mag. 61:1990;435-449.
29. Kujawski D. A fatigue crack driving force parameter with load ratio effects. Int J Fatigue. 23:2001;S236-S246.
30. Navarro A., Vallellano C., de los Rios E.R., Xin X.J. Notch sensitivity and size effects described by a short crack propagation model. Beynon J.H., Brown M.W., Lindley T.C., Smith R.A., Tomkins B. Engineering against fatigue. 1999;Balkema, The Netherlands.
31. de los Rios ER, Trooll M, Levers A. Improving the fatigue crack resistance of 2024-T351 aluminium alloy by shot peening. Proceedings of Ceas Forum, Churchill College Cambridge; 1999, p. 261-68.
32. Tokaji K., Ogawa T., Kameyama Y. The effects of stress ratio on the growth behaviour of small fatigue cracks in an aluminum alloy 7075-T6 (with special interest in stage I crack growth). Fatigue Fract Eng Mater Struct. 13:(4):1990;411-421.
33. Newman J.C. Jr, Wu X.R., Venneri S.L., Li C.G. Small-crack effects in high-strength aluminium alloys. NASA/CAE. 1994;LRC, Virginia. NASA Reference Publication 1309.
34. Boyer H.E., Gall T.L. Metals handbook. 1985;American Society for Metals, Metals Park, OH.
35. Bu R., Stephens R.I. Comparison of short and long fatigue crack growth in 7075-T6 aluminum. Fatigue Fract Eng Mater Struct. 9:(1):1986;35-48.
36. Kirby B.R., Beevers C.J. Slow fatigue crack growth and threshold behaviour in air and vacuum of commercial aluminium alloys. Fatigue Fract Eng Mater Struct. 1:1979;203-215.
37. Lankford J. The growth of small fatigue cracks in 7075-T6 aluminum. Fatigue Fract Eng Mater Struct. 5:(3):1982;233-248.
38. Pearson S. Initiation of fatigue cracks in commercial aluminium alloys and the subsequent propagation of very short cracks. Eng Fract Mech. 7:1975;235-247.
39. Morris W.L. The early stage of fatigue crack propagation in Al 2048. Metall Trans. A84:1976;589-596.
40. Miller K.J. The short fatigue crack problem. Fatigue Fract Eng Mater Struct. 5:1972;223-232.
41. Edwards PR, Newman Jr JC. Short-crack growth behaviour in various aircraft materials. AGARD R-767, 1990.
42. de los Rios E.R., Tang Z., Miller K.J. Short crack fatigue behaviour in a medium carbon steel. Fatigue Fract Eng Mater Struct. 7:(2):1984;97-108.
43. Yoder G.R., Cooley L.A., Crooker T.W. On microstructural control of near-threshold fatigue crack growth in 7000-series aluminium alloys. Scripta Metall. 16:1982;1021-1025.
44. Curtis S.A., Solis Romero J., de los Rios E.R., Rodopoulos C.A., Levers A. Predicting the interfaces between fatigue crack growth regimes in 7150-T651 aluminium alloy using the fatigue damage map. Mater Sci Eng. A344:2003;79-85.
45. James M.N., de los Rios E.R. Variable amplitude loading of small fatigue cracks in 6026-T6 aluminium alloy. Fatigue Fract Eng Mater Struct. 19:(4):1996;413-426.
46. Allen R.J. Fatigue crack growth characterisation by LEFM - part II. Fatigue Fract Eng Mater Struct. 11:(2):1980;71-108.
47. Dugdale D.S. Yielding of steel sheets containing slits. J Mech Phys Solids. 8:1960;100-108.
48. Rooke D.P., Cartwright D.J. Compendium of stress intensity factors. 1974;HMSO, London.
49. Pang C.-M., Song J.-H. Crack growth and closure behaviour of short fatigue cracks. Eng Fract Mech. 47:(3):1994;327-343.