13th International Conference on Fracture June 16–21, 2013, Beijing, China -11- [20]A. Pineau, Fatigue and creep-fatigue behaviour of Ni-base superalloys: Microstructural and environmental effects in M. Branco, R. Ritchie, V. Sklenicka, Mechanical behaviour of materials at high temperature, NATO ASI Series, Kluwer Academic Publishers, Dordrecht, Boston, London, 1995, pp. 135-167. [21]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. [22]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. [23]I. Kaur, Y. Mishin, W. Gust, Fundamentals of grain and interphase boundary diffusion, John Wiley & Sons, New York, 1995. [24]H. Riedel, Fracture at high temperatures, MRE, Springer-Verlag, Berlin, Heidelberg, New York, 1987. [25]A. Diboine, A. Pineau, Creep crack initiation and growth in Inconel 718 alloy at 650°C, Fatigue Fract. Engng. Mater. Struct., 10, 1987, pp. 141-151. [26]E. Maas, A. Pineau, Creep crack growth behaviour of type 316L steel, Eng. Fracture Mechanics, 22, 1985, pp. 305-325. [27]J. Charpigny, Fissuration sous fluage dans l’Inconel 718, PhD thesis, Ecole des Mines de Paris, 1981.
RkJQdWJsaXNoZXIy MjM0NDE=