High frequency fatigue crack propagation behavior of a nickel-base turbine disk alloy

International Journal of Fatigue

Volumn 21, Issue 7, 1999, Pages 725-731

  Padula Ii, S A ^a   Shyam, A ^a   Ritchie, R O ^b   Milligan, W W ^a  

^a Michigan Technological University   (United States)

^b Lawrence Berkeley National Laboratory   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

CRACK PROPAGATION; DEFECTS; DISKS (MACHINE COMPONENTS); FATIGUE OF MATERIALS; FATIGUE TESTING; FORGING; GRAIN SIZE AND SHAPE; MICROSTRUCTURE; NICKEL ALLOYS; POWDER METALLURGY; THERMAL EFFECTS;

CRACK PATH TORTUOSITY; FATIGUE CRACK PROPAGATION; FATIGUE THRESHOLDS; FREQUENCY EFFECT; HIGH CYCLE FATIGUE; LOAD RATIO EFFECT;

SUPERALLOYS;

EID: 0032592137     PISSN: 01421123     EISSN: None     Source Type: Journal    
DOI: 10.1016/S0142-1123(99)00036-5     Document Type: Article

References (24)

1. Suresh S. Fatigue of materials. 2nd ed. 1998;Cambridge University Press, Cambridge.
2. Cowles B.A. Int. J. Fracture. 80:1996;147-163.
3. Boyce BL, Campbell JP, Roder O, Thompson AW, Milligan WW, Ritchie RO. Thresholds for high-cycle fatigue in a turbine engine Ti-6Al-4V alloy. Int J Fatigue, this issue.
4. Krueger DD et al. US Patent 5143563, September 1, 1992.
5. Sinharoy S, Virro-Nic P, Oja EA, Milligan WW. Deformation behavior of two nickel-base turbine disk alloys at 650°C. Metall Mater Trans A, in review.
6. Huron E.S., Casey R.L., Henry M.F., Mourer D.P. Kissinger R.D.et al. Superalloys 1996. 1996;667-676 TMS, Warrendale, PA.
7. Leverant G.R., Gell M., Hopkins S.W. Mater. Sci. Eng. 8:1971;125-133.
8. Morgan J.M., Milligan W.W. Soboyejo W.O., Srivatsan T.S. High cycle fatigue of structural materials. 1997;305-312 The Minerals, Metals and Materials Society, Warrendale, PA.
9. Tada H., Paris P.C., Irwin G.R. The stress analysis of cracks handbook. 1973;Del Research Corporation, Hellertown, PA.
10. Suresh S., Zamiski G.F., Ritchie R.O. Metall. Trans. A. 12A:1981;1435-1443.
11. Bartos J., Antolovich S.D. Taplin D.M.R. Fracture 1977. 1977;995-1005 Pergamon Press, NY.
12. Antolovich S.D., Jayaraman N. Burke J.J., Weiss V. Fatigue: environment and temperature effects. 1983;119-144 Plenum Press, NY.
13. James L.A., Mills W.J. Engr. Fract. Mech. 22:1985;797-817.
14. King J.E. Metal Sci. 16:1982;345-355.
15. Venables R.A., Hicks M.A., King J.E. Davidson D.L., Suresh S. Fatigue crack growth threshold concepts. 1984;341-355 The Minerals, Metals and Materials Society, Warrendale (PA).
16. Yuen J.L., Roy P. Scripta Metall. 19:1985;17-22.
17. Lerch B.A., Jayaraman N., Antolovich S.D. Mater. Sci. Eng. 66:1984;151-166.
18. King J.E. Mater. Sci. Tech. 3:1987;750-764.
19. Krueger D.D., Antolovich S.D., Van Stone R.H. Metall. Trans. A. 18A:1987;1431-1449.
20. Denda T., Britz P.L., Tien J.K. Metall. Trans. A. 23A:1992;519-526.
21. Sadananda K., Vasudevan A.K. Soboyejo W.O., Srivatsan T.S., Ritchie R.O. Fatigue and fracture of ordered intermetallic materials II. 1995;273-286 The Minerals, Metals and Materials Society, Warrendale, PA.
22. Sadananda K., Shahinian P. Int. J. Fracture. 13:1977;585-594.
23. Weertman J. Mura T. Mechanics of fatigue. 1981;11-19 ASME, NY.
24. Lin G.M., Fine M.E. Scripta Metall. 16:1982;1249-1254.