13th International Conference on Fracture June 16–21, 2013, Beijing, China -9- REFERENCES [1] S. Suresh, Fatigue of Materials, Cambridge University Press, Cambridge, UK, 2006 [2] C. Bathias, A. Pineau, Fatigue des matériaux et des Structures 1, Lavoisier, Paris, 2008 [3] H. Mughrabi, The Strength of Metals and Alloys, P. Haasen, V. Gerold, G. Kostorz, (Ed.), Pergamon Press, Oxford, 1980 [4] D. Wagner, N. Ranc, C. Bathias, P. Paris, Fatigue crack initiation detection by an infrared thermography method, Fat. Fract. Engng Mater Struct 33, (2009) 12-21 [5] N. Ranc, D.Wagner, P.C. Paris, Study of thermal effects associated with crack propagation during very high cycle fatigue, Acta Materiala 56, (2008), 4012-4021 [6] C. Bathias, P. C. Paris, Gigacycle Fatigue in Mechanical Practice, Marcel Dekker, New York, 2004 [7] C. Wang, D. Wagner, Q.Y. Wang, C. Bathias – Gigacycle fatigue initiation mechanism in Armco iron, Int Jl Fatigue, Vol 45(2012)91-97 [8] C. Wang, A. Blanche, D. Wagner, A. Chrysochoos, C. Bathias – Study of Fatigue Crack initiation mechanism on an Armco Iron by dissipation assessments and microstructural observations, Crack Path 2012, Gaeta, Italie, septembre 2012 [9] Z. Huang, D. Wagner, C. Bathias – Effect of carburizing treatment on the “fish eye” crack growth for a low alloyed chromium steel in Very High Cycle Fatigue, Mat. Sc.& Eng.A, article sous presse [10] Z. Huang, D. Wagner, C. Bathias, P. C. Paris - Subsurface Crack Initiation and Propagation Mechanism in the Gigacycle Fatigue, Acta Materiala, 58 (2010), 6046-6054 [11] Y. Hong, Z. Lei, C. Sun, A. Zhao – Characteristics of crack interior initiation and early growth originated from inclusion for very high cycle fatigue of high strength steels, Crack Path 2012, Gaeta, Italie, septembre 2012
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