Abstract
The excellent mechanical properties of powder metallurgy (P/M) superalloys strongly depend on the microstructure, such as grain size, and morphology and size distribution of the γ’ precipitates. The microstructure is, in turn, determined by the heat treatment, viz., solution annealing, quenching, and subsequent aging. To study the effect of the quenching process, two types of quenching methods were used to produce different quenched microstructures in a UDIMET 720LI (U720LI) alloy. One was a continuous quenching method, where samples were colled along linearly controlled cooling profiles, each at a fixed cooling rate. This test studied the effect of cooling rate on the size of cooling γ’ precipitates (formed during quenching) and the consequent strengthening effect. The other test was the interrupted quenching test, which allowed tracking the growth of cooling γ’ precipitates with decreasing temperature during quenching at a given cooling rate. The strengthening response at each interrupt temperature was also studied. Results from the continuous cooling tests showed that the relationship between the size of the cooling γ’ precipitate and the cooling rate obeys a power law, with an exponential being about 0.35. The tensile strength was found to increase linearly with the cooling rate. Strengthening due to the subsequent aging treatment occurred regardless of cooling rates. The interrupted cooling tests showed that γ’ growth is a linear function of decreasing temperature for a given cooling rate. A nonmontonic degradation of tensile strength against interrupt temperature was discovered.
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P.R. Bhowal, E.F. Wright, and E.L. Raymond: Metall. Trans. A, 1990, vol. 21A, pp. 1709–17.
Jian Mao, V.L. Keefer, Keh-Minn Chang, and David Furrer: J. Mater. Eng. Performance, 2000, vol. 9 (2), pp. 204–14.
R.A. Wallis: Adv. Mater. Processes, 1995, Sept., pp. 42kk–42NN.
R.A. Wallis and P.R. Bhowal: Superalloys 1988, D.N. Duhl, G. Maurer, and S. Antolovich, eds., TMS-AIME, Warrendale, PA, pp. 525–34.
Dwaine L. Klarstrom: Adv. Mater. Processes, 1996, vol. 4, pp. 40EE-40HH.
Jian Mao, Keh-Minn Chang, and David U. Furrer: in Superalloy 2000, T.M. Pollock, R.D. Kissinger, R.R. Bowman, K.A. Green, M. Mclean, S.L. Olson, and J.J. Schirra, eds., TMS, Warrendale, PA, 2000, pp. 109–16.
N. Gayraud, F. Moret, X. Baillin, and P.E. Mosser: Euromat Conf.: Materials Development in Rail, Tire, Wing, Hull Transportation, Genes, Sept. 22–24, 1992, pp. 1225–33.
S.T. Wlodek, M. Kelly, and D. Alden: in Superalloy 1992, S.D. Antolovich, R.W. Stusrud, R.A. MacKey, D.L. Anton, T. Khan, R.O. Kissinger, and D.L. Klarstrom, eds., TMS, Warrendale, PA, 1992, pp. 467–76.
David Ulrich Furrer: Scripta Mater. 1999, vol. 40 (11), pp. 1215–20.
M.P. Jackson and R.C. Reed: Mater. Sci. Eng., 1999, vol. A259, pp. 85–97.
N. Gayraud, F. Moret, X. Baillin, and P.E. Mosser: J. Phys. III, 1993, vol. 3, pp. 271–76.
S.T. Wlodek, M. Kelly, and D.A. Alden: in Superalloy 1996, R.D. Kissinger, D.J. Deye, D.L. Anton, A.D. Cetel, M.V. Nathal, T.M. Pollock, and D.A. Woodford, eds., TMS, Warrendale, PA, 1996, pp. 129–36.
Timothy P. Gabb, Daniel G. Backman, Daniel Y. Wei, David P. Mourer, David Furrer, Anita Garg, and David L. Ellis: in Superalloy 2000, T.M. Pollock, R.D. Kissinger, R.R. Bowman, K.A. Green, M. Mclean, S.L. Olson, and J.J. Schirra, eds., TMS, Warrendale, PA, 2000, pp. 405–14.
Jian Mao, Kelan Yu, and Ruifa Zhou: Aeronautical Mater., 1989, vol. 9 (4), pp. 1–9 (in Chinese).
Charles E. Bates and George E. Totten: Adv. Mater. Processes, 1991, vol. 3, pp. 25–28.
Keh-Minn Chang and Jian Mao: Internal Report, West Virginia University, Morgantown, WV, July 2000.
David U. Furrer: Doctorate of Engineering Dissertation, Universitat Ulm, Ulm, Germany, 1999.
K. Kusabiraki, Xiao-Min Zhang, and Takayuki Ooka: Iron Steel Inst. Jpn. Int., 1995, vol. 35 (9), pp. 1115–20.
H. Wendt and P. Hassen: Acta Metall., 1983, vol. 31 (10), pp. 1649–59.
George E. Dieter: Mechanical Metallurgy, 3rd ed., McGraw-Hill Co., New York, NY, 1986, p. 215.
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Mao, J., Chang, KM., Yang, W. et al. Cooling precipitation and strengthening study in powder metallurgy superalloy U720LI. Metall Mater Trans A 32, 2441–2452 (2001). https://doi.org/10.1007/s11661-001-0034-9
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DOI: https://doi.org/10.1007/s11661-001-0034-9