13th International Conference on Fracture June 16–21, 2013, Beijing, China -9- [5] H. Wang, F.G. Buchholz, H.A. Richard, S. Jägg, B. Scholtes, Numerical and experimental analysis of residual stress for fatigue crack growth., Computational Materials Science 16 (1999), 104-112. [6] J. Barralis, L. Castex, G. Maeder, Précontraintes et traitements superficiels. Technique de l’Ingénieur, traité matériaux métalliques M1 180. [7] P.J. Withers, H.K.D.H. Bhadeshia, “Residual stress - Part 2: Nature and Origins”. Materials Sciences and Technology, 17, April 2001. [8] Lim Won-Kyum, Jeong-hoon Song, B.V. Sankar, Effect of ring indentation on fatigue crack growth in an aluminum alloy plate. International Journal of Fatigue, 51 (1981), 61-69. [9] M. Benedetti, T. Bortolamedi, V. Fontanriand, F. Frendo, Bending fatigue behavior of differently shot penned Al 6082 T5 alloy. International Journal of Fatigue, 26 (2004), 889-897. [10] T. Fett, Residual crack profiles under weak phase transformation conditions. Engineering Fracture Mechanics, 56 (1997), 275-284. [11] V.V. Silberschmidt, E. Werner, Analysis of thermal residual stresses in duplex-type materials, Computational Material Science, 16 (1999), pp 39-52. [12] Y.C. Lam, K.S. Lian, The effect of residual stress and its redistribution on fatigue crack growth. Theoretical and Applied Fracture Mechanics, 12 (1989), 59-66. [13] M. Beghini, L. Bertini, Fatigue crack propagation through residual stress fields with closure phenomena. Engineering Fracture Mechanics, 36 (1990), 379-387. [14] L. Wagner, G. Lütjering, V. Sedlàcek, Fatigue crack growth retardation in an Al alloy 2024 in a residual compressive stress field. International Conference on Residual Stresses: ICRS2, 23-25 November (1988), 803-808. [15] M.A. Wahab, G.R., Rohrsheim, J.H. Park, Experimental study on the influence of overload induced residual stress field on fatigue crack growth in aluminum alloy. Journal of Materials Processing Technology, 153-154 (2004), 945-951. [16] S. Suresh, R.O. Ritchie, On the influence of fatigue underload on cyclic crack growth at low stress intensities. Materials Sciences and Engineering, 51 (1981), 61-69. [17] S. Kamel, Robert C. Wimpory, Michael Hofmann, Kamran M. Nikbin, N.P. O'Dowd, Advanced Materials Research, 89-91 (2010), 275. [18] A.N. Al-Khazraji, F.M. Mohammed, R.A. Al-Taie, Eng. Tech. Journal, 29(3) (2011). [19] V. N. Ezhov, V.M. Sidyachenko, Influence of plastic predeformation on the fatigue strength of compressor blades with defects. Strength of Materials, Vol. 26, Issue 10, (1994), 772-782 [20] C. Mokhdani, Amorçage et propagation de fissures de fatigue dans un acier pour tubes de transport de gaz : Identification des lois de d’endommagement et application aux structures tubes sous pression interne. Thesis in french Doctorat Es-sciences, Mines ParisTech, France, 1995. [21] M. Benachour, Simulation of fatigue crack growth through residuals stresses field. Thesis in French Doctorat Es-Sciences, University of Sidi Bel Abbes, Algeria, 2008.
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