Hold Time Effects on the Crack Growth Behavior in Inco 718 Alloy
Stéphane Pierret,
Raul De Moura Pinho,
Andre Pineau,
Stéphane Pierret
Snecma-SAFRAN, Villaroche, 77550 Moissy-Cramayel, France
Search for more papers by this authorRaul De Moura Pinho
Snecma-SAFRAN, Villaroche, 77550 Moissy-Cramayel, France
Search for more papers by this authorAndre Pineau
Mines ParisTech, Centre des Matériaux, UMR CNRS 7633, BP 87, 91003 Evry Cedex, France
Search for more papers by this authorStéphane Pierret,
Raul De Moura Pinho,
Andre Pineau,
Stéphane Pierret
Snecma-SAFRAN, Villaroche, 77550 Moissy-Cramayel, France
Search for more papers by this authorRaul De Moura Pinho
Snecma-SAFRAN, Villaroche, 77550 Moissy-Cramayel, France
Search for more papers by this authorAndre Pineau
Mines ParisTech, Centre des Matériaux, UMR CNRS 7633, BP 87, 91003 Evry Cedex, France
Search for more papers by this authorBook Editor(s):Eric Ott, Anthony Banik,
Joel Andersson,
Ian Dempster,
Tim Gabb, Jon Groh, Karl Heck, Randy Helmink,
Xingbo Liu,
Agnieszka Wusatowska-Sarnek,
Anthony Banik
Search for more papers by this authorJoel Andersson
Search for more papers by this authorIan Dempster
Search for more papers by this authorRandy Helmink
Search for more papers by this authorXingbo Liu
Search for more papers by this authorAgnieszka Wusatowska-Sarnek
Search for more papers by this authorSummary
This chapter contains sections titled:
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Introduction
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Material and Experimental Procedures
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Results
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Discussion
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Conclusions
References
- D. Fournier, A. Pineau, Low cycle fatigue behavior of Inconel 718 at 298K and 823K, Met. Trans. 8A, 1977, pp. 1095–1105.
- M. Clavel, A. Pineau, Frequency and waveform effects on the fatigue crack growth behavior of alloy 718 at 298K and 823K, Met. Trans. 9A, 1978, pp. 471–480.
- M. Clavel, A. Pineau, Fatigue behaviour of two nickel-base alloys I: Experimental results on low cycle fatigue, fatigue crack propagation and substructure, Mat. Sci. Eng. 25, 1982, pp. 157–171; II: Physical modeling of the fatigue crack propagation process, Mat. Sci. Eng. 25, 1982, pp. 173–180.
- L.A. James, W.J. Mills, Effect of heat treatment and heat-to-heat variations in the fatigue crack growth response of alloy 718, Engng. Fract. Mech. 22, 1985, pp. 797–817.
- J.P. Pédron, A. Pineau, The effect of microstructure and environment on the crack growth behaviour of Inconel 718 alloy at 650d̀C under fatigue, creep and combined loading, Mat. Sci. Eng. 56, 1982, pp. 143–156.
- J.E. King, Fatigue crack propagation in nickel-base superalloys - Effects of microstructure, load ratio and temperature, Mat. Sci. Eng. 3, 1987, pp. 750–764.
- H.H. Smith, D.J. Michel, Effect of environment on fatigue crack propagation behavior of alloy 718 at elevated temperature, Met. Trans. 17A, 1986, pp. 370–374.
- M.R. Bache, W.J. Evans, M.C. Hardy, The effects of environment and loading waveform on fatigue crack growth in Inconel 718, Int. J. Fatigue, 21, 1999, pp. S69–S77.
- G.A. Osinkulu, G. Onofrio, M. Marchionni, Fatigue crack growth in polycrystalline IN 718 superalloy, Mat. Sci. Eng., A 356, 2003, pp. 425–433.
- D. Gustafsson, J.J. Moverare, S. Johansson, K. Simonsson, M. Hornqvist, T. Månsson, S. Sjöström, Influence of high temperature hold times on the fatigue crack propagation in Inconel 718, Int. J. Fatigue, 33, 2011, pp. 1461–1469.
- M. Hornqvist, T. Månsson, D. Gustafsson, High temperature fatigue crack growth in Alloy 718 – Effect of tensile hold times, Proc. Eng., 10, 2011, pp. 147–152.
- D. Gustafsson, J. Moverare, K. Simonsson, S. Johansson, M. Hornqvist, T. Månsson, S. Sjöström, Fatigue crack growth behaviour of Inconel 718 – The concept of a damaged zone caused by high temperature hold times, Proc. Eng., 10, 2011, pp. 2821–2826.
- S. Floreen, The creep fracture of wrought nickel-base alloys by a fracture mechanics approach, Met. Trans. 6A, 1975, pp. 1741–1749.
- J.P. Pédron, A. Pineau, Influence de l'oxydation sur la propagation des fissures à haute temperature dans l'alliage Inconel 718, Mémoires et Etudes Scientifiques Revue de Métallurgie, 1983, pp. 665–674.
- K. Sadananda, P. Shahinian, Creep crack growth in Alloy 718, Met. Trans. 8A, 1977, pp. 439–449.
- A. Pineau, R. De Moura Pinho, S. Pierret, C. Mary, A Local Approach to Creep-Fatigue - Oxidation Interactions in Inco 718 Alloy, ICF13 Proceedings, 2013.
- H. Ghonem, D. Zheng, Depth of intergranular oxygen diffusion during environment-dependent fatigue crack growth in alloy 718, Mater. Sci. Eng., A150, 1992, pp. 151–160.
- R. Molins, G. Hochstetter, J.C. Chassaigne, E. Andrieu, Oxidation effects on the fatigue crack growth behaviour of Alloy 718 at high temperature, Acta Mater., 45, 1997, pp. 663–674.
- L. Viskari, M. Hörqvist, K.L. Moore, Y. Cao, K. Stiller, Intergranualar crack tip oxidation in a Ni-base superalloy, Acta Mater., 61, 2013, pp. 3630–3639.
- A. Devaux, Propagation des fissures par fatigue à haute température dans l'Inconel 718: Effets de microstructure et de chargements complexes, PhD Thesis, Ecole des Mines de Paris, 2011.
- A. Pineau, S.D. Antolovich, High temperature fatigue of nickel-base superalloys: A review with special emphasis on deformation modes and oxidation, EFA 16, 2009, 2668-2697
- D.D. Kruger, The development of direct aged 718 for gas turbine engine disk applications. Superalloys. TMS, 1989, pp 279-296.
- S. Deyber, F. Alexandre, J. Vaissaud, A. Pineau, Probabilistic life of DA718 for aircraft engine disks. Superalloys. TMS, 2005.
- S. Ponnelle. Propagation des fissures par fatigue à haute temperature dans lTnconel 718: effets de microstructure et de chargements complexes, PhD thesis, Ecole des Mines de Paris; 2001.
- S. Ponnelle, B. Brethes, A. Pineau. High temperature fatigue crack growth rate in Inconel 718: dwell effect annihilation. In: 9th International spring meeting, SF2M, temperature-fatigue interaction, Paris, May, 29-31; 2001.
- S. Ponnelle, B. Brethes, A. Pineau. Orientation effects and influence of delta phase on fatigue crack growth rates in a forged disc of Inconel 718 superalloy. In: 5th international special emphasis on superalloys 718, 625, 706 and derivatives, Pittsburg, PA, June, 17-20; 2001.
- S. Kruch, P. Prigent, J.L. Chaboche. A fracture mechanics based fatigue-creep-environment crack growth model for high temperature. Int. J. Press. Vessels Piping, 1994; 59, pp. 141–148.
- H. Riedel, Fracture at high temperatures, MRE, Springer-Verlag, Berlin, Heidelberg, New York, 1987.
10.1007/978-3-642-82961-1 Google Scholar
- A. Diboine, A. Pineau, Creep crack initiation and growth in Inconel 718 alloy at 650d̀C, Fatigue Fract. Engng. Mater. Struct., 10, 1987, pp. 141–151.
- E. Maas, A. Pineau, Creep crack growth behaviour of type 316L steel, Eng. Fracture Mechanics, 22, 1985, pp. 305–325.
- DA. Woodford, Gas phase embrittlement and time dependent cracking of nickel based superalloys, Energy Materials 1, 2006, pp. 59–79.
- J. Charpigny, Fissuration sous fluage dans l'Inconel 718, PhD Thesis, Ecole des Mines de Paris, 1981.
