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Development of design principles for a creep-limited alloy for turbine blades

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Abstract

Recent advancements in turbine-blade materials engineering are reviewed in light of general superalloy research and the author’s work on a new powder metallurgy IN-792 creep-limited alloy for application in blades of gas-turbine engines. The developed set of principles presented in this paper incorporates all the factors that must be taken into consideration in selecting and designing an alloy for turbine blades.

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References

  1. 1.

    Z. Huda, paper presented at 3rd Int. Symp. on Advanced Materials (Islamabad), 20–24 Sept 1993.

  2. 2.

    H.E. Miller and W.L. Chambers, inSuperalloys II, C.T. Sims et al., Ed., John Wiley & Sons, 1987

  3. 3.

    W. Betteridge and S.W.K. Shaw,Mater. Sci. Technol., Vol 3, Sept 1987, p 643

  4. 4.

    M.A. Imam, K. Sadananda, and J. Feng in Abstracts of the 3rd Int. Symp. on Adv. Mat. (Islamabad), 1993

  5. 5.

    V.B.John,Engineering Materials, Macmillan, 1990

  6. 6.

    Z. Huda,Eng. Rev., Vol 17 (No. 11), 1992

  7. 7.

    C.T. Sims, inSuperalloys II, C.T. Sims et al., Ed., John Wiley & Sons, 1987

  8. 8.

    T. Khan,Mater. Sci. Technol., Vol 2 (No. 5), 1986

  9. 9.

    T.E. Strangman, B. Heath, and M. Fuji, Garrett 21-4314-1, CR-168218, Vol I, Garrett Turbine Engine Co., NASA, 1983

  10. 10.

    W.R. Freeman, inSuperalloys II, C.T. Sims et al., Ed., John Wiley & Sons, 1987

  11. 11.

    W. Hoffelener,Metall. Trans. A, Vol 13A, 1982, p 1245

  12. 12.

    G.H. Gessinger,Powder Metallurgy of Superalloys, Butterworths, 1984

  13. 13.

    S.W.K. Shaw and M.J. Fleetwood,Mater. Sci. Technol., Vol 5, 1989, p 925

  14. 14.

    G.A.J. Hack,Met. and Mater.; August 1987, p.457

  15. 15.

    G.A.J. Hack;Met. Powder Rep.; Vol. 36,1981, p.425

  16. 16.

    G.S. Hoppin and F.A. Schweizer, inProc. INCO MAP Conf., 1981, p.75

  17. 17.

    Z. Huda, Ph.D. thesis, Brunei University of West London, 1991

  18. 18.

    N.S. Stoloff, inSuperalloys II, C.T. Sims et al., Ed., John Wiley & Sons, 1987

  19. 19.

    E. Arzt and R.F. Singer, inSuperalloys ’84, M. Gell et al., Ed., TMS-AIME, 1984

  20. 20.

    S.W.K. Shaw, Tech. Publ. No. P-BL-460, INCO Engineered Ltd., Birmingham, U.K., 1987

  21. 21.

    Z. Huda and B. Ralph,Prakt. Metallogr., Vol 27, 1990, p 64

  22. 22.

    KM. Ashby and D.R.H. Jones,Engineering Materials, Vol 1, Pergamon Press, 1980

  23. 23.

    O.D. Sherby and P.M. Burke,Prog. Mater. Sci, Vol 13,1967, p 32

  24. 24.

    T. Mukherjee, W.E. Stumph, CM. Sellars, and W.J.McG. Tegart,J. Iron Steel Inst., Vol 207, 1969, p 621

  25. 25.

    E.W. Ross and C.T. Sims, inSuperalloys II, C.T. Sims et al., Ed., John Wiley & Sons, 1987

  26. 26.

    D.R. Chang, D.D. Kruger, and R.A. Sprague, inSuperalloys ’84, M. Gell et al., Ed., TMS-AIME, 1984

  27. 27.

    R.L. Dreshfield,J. Met., Vol 18,1987, p 16

  28. 28.

    Ver Snyder and M.E. Shank,Mater. Sci. Eng., Vol 6, 1970, p 235

  29. 29.

    S. Floreen, inSuperalloys II, CT. Sims et al., Ed., John Wiley & Sons, 1987

  30. 30.

    J.K. Tien and S.M. Copley,Metall. Trans., Vol 2,1971, p 543

  31. 31.

    D.D. Pearson, B.H. Kear, and F.D. Lamkey, inCreep Fracture of Engineering Materials, Pineridge, 1981

  32. 32.

    B. Ralph and R.C. Ecob, inProc. 5th Int. Conf. on Metals and Materials Science, Riso Laboratories, Denmark, 1984

  33. 33.

    J.M. Larson,Metall. Trans. A, Vol 7A, 1976, p 1497

  34. 34.

    V. Randle and B. Ralph,Rev. Phys. AppL, Vol 23,1988, p 501

  35. 35.

    J.M. Larson and S. Floreen,Metall. Trans. A, Vol 8A, 1977, p 51

  36. 36.

    Z. Huda in Advanced Materials-93; Ed. A. ul. Haq, A.Q. Khan, 1993,p.391

  37. 37.

    Z. Huda, paper presented at 9th Natl. Conf. on Engineering and Fracture Mechanics (Karachi, Pakistan), 28 April 1993

  38. 38.

    Z. Huda and B. Ralph,Mater. Charac., Vol 25,1990, p 210

  39. 39.

    B. Ralph, K.B. Shim, Z. Huda, J. Furley, and M. Edirisnghe,Mater. Sci. Forum, Vol 94–96, 1992

  40. 40.

    K.E. Volk and A.W. Franklin,Z.Mettalkd, Vol 51,1960,p.172

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Huda, Z. Development of design principles for a creep-limited alloy for turbine blades. JMEP 4, 48–53 (1995). https://doi.org/10.1007/BF02682704

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Keywords

  • alloy design
  • creep
  • IN-792
  • powder metallurgy
  • turbine blades