Abstract
In this literature review, the present understanding regarding the effects of microstructure, loading conditions, and environments on the fatigue behavior of nickel-based superalloys is reviewed.
Article PDF
Similar content being viewed by others
Avoid common mistakes on your manuscript.
References
C.T. Sims and W.C. Hagel,The Superalloys (New York, John Wiley & Sons, 1972).
A.M. Filippi, NASA TN D-4955 (1968).
J. Heslop,Proc. Journess Int. des Applications du Cobalt (1964), p. 209
R.F. Decker and J.W. Freeman,Trans. AIME, 218 (1960), p. 277.
C.T. Sims, ASME tech. pub. 70-GT-24 (1970).
E.F. Bradley,Superalloys: A Technical Guide (Metals Park, OH: ASM, 1988).
R.F. Decker, “Strengthening Mechanisms in Nickel-Base Superalloys,Climax Molybdenum Company Symposium (Zurich: Chimax Molybdenum Co., 1969).
R.M.N. Pelloux and N.J. Grant,Trans. AIME, 218 (1960), p. 232.
W.C. Hagel and H.J. Beattie,Iron and Steel Inst. Spec. Rep. 64 (1971), p. 98.
W.B. Kent, “Mechanical Properties and Structural Characteristics of NASA IIb” (Paper presented at the AIME Annual Meeting, Cleveland, Ohio, 1970).
J.R. Mihalisin, personal communication.
E. Orowan,Symposium on Internal Stresses in Metals and Alloys (London: IOM, 1948), p. 451.
The Nimonic Alloys, eds. W. Betteridge and J. Heslop (New York: Crane, Rusack and Company, 1974).
H. Glieter and E. Hornbogen,Phys. Stat. Sol., 12 (1965), p. 235.
R.O. Williams,Acta. Met., 5 (1957), p. 241.
T.B. Gibbons and B.E. Hopkins,Met. Sci. J., 5 (1971), p. 233.
R.F. Decker,Steel Strengthening Mechanisms (Zurich: Climax Molybdenum Company, 1969), p. 147.
W.I. Mitchell,Z. Metall., 57 (1966), p. 586.
R.W. Smashey, personal communication.
C.T. Sims,J. Met., 18 (10) (1966).
H.J. Beattie, Jr., and W.C. Hagel,Trans AIME, 233 (1965), p. 277.
E.W. Ross, “Recent Research on IN-100,” (Paper presented at the AIME Annual Meeting, Dallas, TX, 1963).
H.J. Murphy, C.T. Sims, and G.R. Heckman,Trans. AIME, 236 (1967), p. 1961.
L.R. Woodyatt, C.T. Sims, and H.J. Beattie, Jr.,Trans. AIME, 236 (1966), p. 519.
H.J. Beattie, Jr., and W.C. Hagel,Trans. AIME, 221 (1961), p. 28;Trans. AIME, 215 (1959), p. 973.
G. Henaff, K. Marchal, and J. Petit,Acta Met., 43 (8) (1995), p. 2931.
P.C. Paris and F. Erdogan,Trans. ASME-J. Basic Eng., 85 (1963), p. 528.
L. Bartosiewicz et al.,J. Mater. Engr. and Performance, 1 (1992), p. 67.
W. Elber,Eng. Fract. Mech., 21 (1970), p. 323.
V. Singh et al.,Met. Trans. A, 22A (1991), p. 499.
T. Denda, P.L. Bretz, and J.K. Tien,Met. Trans A, 23A (1992), p. 519.
D.D. Krueger, S.D. Antolovich, and R.H. Van Strom,Met. Trans. A, 18A (1987), p. 1431.
S. Kim and J.F. Knott,Fracture & Strength '90 Key Engrg. Mater., 51 (1991), p. 209.
J.E. King,Met. Sci., 16 (1982), p. 345.
E.A. Schwarzkopf, Ph.D. thesis, Columbia University (1989).
S. Floreen and R.H. Kane,Fatigue Eng. Mater. Struct., 2 (1980), p. 401.
H.H. Smith and D.J. Michel,Ductility and Toughness Considerations in Elevated Temperature Service, MPC-8, ed. G.V. Smith (New York: ASME, 1978), p. 269–277.
J.P. Pedron and A. Pineau,Mater Sci. Eng., 56 (1982), p. 143.
D. Zheng and H. Ghonem,Met. Trans. A, 23A (1992), p. 3169.
O. Vosikovsky,Eng. Fract. Mech., II (1979), p. 595.
J.M. Barsom,WRC Bull., 194 (1974), p. 33.
M. Klensil and P. Lukas,Mater. Sci. Eng., 9 (1983), p. 231.
P.K. Liaw and W.A. Logsdon,Acta. Met., 36 (7) (1988), p. 1731.
S.S. Hsu,Scripta. Met., 25 (1991), p. 1143.
L.A. James,J. Eng. Mater. Tech., 95 (1973), p. 254.
M. Clavel and A. Pineau,Met. Trans. A, 95 (1978), p. 471.
S. Floreen and R.H. Kane,Fatigue Eng. Mater. Struct., 2 (1980), p. 401.
T. Weerasooriya and S. Venkataraman,Effect of Load and Thermal Histories on Mechanical Behavior of Materials, eds. P.K. Liaw and T. Nicholas (Warrendale, PA: TMS, 1987).
T. Weerasooriya,Fracture Mechanics: 19th Symp., ASTM STP 969, ed. T.A. Cruse (Philadelphia, PA: ASTM, 1988).
H. Ghonem and D. Zheng,Mater. Sci. Eng., 150A (1992), p. 151.
H. Ghonem, T. Nicholas, and A. Pineau, “High Temperature Effects” (Paper presented at the ASME Winter Annual Meeting, Atlanta, GA, 1991).
H.H. Smith, P. Shahinian and M.R. Achter,Trans. Am. Inst. Min. Eng., 245 (1969), p. 947.
R.H. Bricknell and D.A. Woodford,Met. Trans. A, 12 (1981), p. 425.
C.J. McMahon and L.F. Coffin,Met. Trans., 1 (1970), p. 3443.
L.F. Coffin, ASTM STP 520 (1973), p. 5.
C.J. McMahon, Jr.,Mater. Sci. Eng., 13 (1974), p. 295.
E. Andrieu et al.,Mater. Sci. Eng., 154 (1992), p. 21.
Additional information
Authors' Note: Inconel, Incoloy, and Nicalon are registered trademarks.
L. Garimella earned his M.S. in materials science and engineering at the University of Tennessee in 1997. He is currently working at an Internet company. Mr. Garimella is a member of TMS.
P. K. Liaw earned his Ph.D. in materials science and engineering at Northwestern University in 1980. He is a professor and Ivan Racheff Chair of Excellence in the Department of Materials Science and Engineering at the University of Tennessee. Dr. Liaw is also a member of TMS.
D.L. Klarstrom earned his Ph.D. in metallurgical engineering at the University of Wisconsin-Madison. He is currently director of Haynes International. Dr. Klarstrom is also a member of TMS.
Rights and permissions
About this article
Cite this article
Garimella, L., Liaw, P.K. & Klarstrom, D.L. Fatigue behavior in nickel-based superalloys: A literature review. JOM 49, 67–71 (1997). https://doi.org/10.1007/BF02914771
Issue Date:
DOI: https://doi.org/10.1007/BF02914771