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Nuclear Technology Volume 66, 1984 - Issue 2: Status of Metallic Materials Development for Application in Advanced High-Temperature Gas-Cooled Reactors
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C.2. Creep Property

Creep and Relaxation Behavior of lnconel-617

Walter OsthoffInstitute for Reactor Materials Kernforschungsanlage Jülich GmbH, Postfach 19 13, D-5170 Jülich Federal Republic of Germany
,
Hans SchusterInstitute for Reactor Materials Kernforschungsanlage Jülich GmbH, Postfach 19 13, D-5170 Jülich Federal Republic of Germany
,
Philip J. EnnisInstitute for Reactor Materials Kernforschungsanlage Jülich GmbH, Postfach 19 13, D-5170 Jülich Federal Republic of Germany
&
Hubertus NickelInstitute for Reactor Materials Kernforschungsanlage Jülich GmbH, Postfach 19 13, D-5170 Jülich Federal Republic of Germany
Pages 296-307 | Published online: 13 May 2017

References

  • F. H. NORTON, The Creep of Steel at High Temperatures, McGraw-Hill Publishing Company Ltd., London (1929).
  • C. R. BARRETT, C. N. AHLQUIST and W. D. NIX, “Interpretation of the Recovery/Work-Hardening Model of Creep,” Met. Sci. J., 4, 41 (1970).
  • R. LAGNEBORG, “Development and Refinement of the Creep-Recovery Theory,” Met. Sci. J., 4, 226 (1970).
  • P. W. DAVIES, G. NELMES, K. R. WILLIAMS and B. WILSHIRE, “Stress Change Experiments During High Temperature Creep of CopperMet. Sci. J., 7, 87 (1973).
  • W. D. NIX and B. ILSCHNER, “Mechanisms Controlling Creep of Single Phase Metals and Alloys,” Proc. 5th Int. Conf. Strength of Metals and Alloys, Aachen, FRG, August 27–31, 1979, p. 1503, P. HAASEN, V. GEROLD and G. KOSTORZ, Eds., Pergamon Press, Oxford.
  • W. BLUM, “On Modelling Steady State and Transient Deformation at Elevated Temperature,” Scr. Metall., 16, 1353 (1982).
  • B. REPPICH, “Ein auf Mikromechanismen abgestütztes Modell der Hochtemperaturfestigkeit und Lebensdauer für teilchengehärtete Legierungen,” Z. Metallkde., 73, 697 (1982).
  • J. C. LI, “A Dislocation Mechanism of Transient Creep,” Acta Metall., 11, 1269 (1963).
  • W. OSTHOFF, “Beitrag zu Stoffgesetzen für das Kriechverhalten von Nickelbasis-Legierungen für HTR-Komponenten im Temperaturbereich 1023 bis 1223 K,” Dissertation, Rheinisch-Westfälische Technische Hochschule, Aachen, D-Aachen, FRG (Nov. 1982).
  • W. OSTHOFF, H. SCHUSTER, P. J. ENNIS and H. NICKEL, “Beitrag zu Stoffgesetzen für das Kriechverhalten von Nickelbasis-Legierungen für HTR-Komponenten im Temperaturbereich 1023 bis 1223 K,” Jül-1843, Kernforschungsanlage Jülich (Apr. 1983).
  • H. J. FROST and M. F. ASHBY, “Deformation Mechanism Maps,” The Plasticity and Creep of Metals and Ceramics, Pergamon Press, Oxford (1982).
  • K. MILICKA, “Internal Stress and Structure in Creep of Cold Prestrained Fe-21 Cr-32 Ni Alloy at 975 K,” Met. Sci., 16, 419 (1982).
  • W. BLUM and A. FINKEL, “A New Technique for Evaluating Long Range Internal Back Stress,” Acta Metall., 30, 1705 (1982).
  • B. WILSHIRE, “The a0 Approach to Creep and Fracture of Metals and Alloys,” Proc. 3rd Symp. Creep in Structures, Leicester, United Kingdom, September 1980, p. 72, A.R.S. PONTER and D. R. HAYHURST, Eds. (1981).
  • J. WEERTMAN, “Dislocation Climb Theory of Steady State Creep,” Trans. ASME, 61, 681 (1968).

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