PSI - Issue 51

Abdelhak Nehila et al. / Procedia Structural Integrity 51 (2023) 152–159 A.Nehila and W. Li / Structural Integrity Procedia 00 (2022) 000–000

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4. Finally, the fatigue life prediction model associated with R and K f was established. The comparison with experimental results shows that the life prediction model is valid according to the good agreement between the experimental and predicted data. References Turnbull, H.W., et al. 1959. The Correspondence of Isaac Newton: Published for the Royal Society at the University Press 416(1), 1661‒1675. London, UK. Suresh S. 1998. Fatigue of Materials magazine 1‒11. Hansson TJ. 2012. Fatigue Failure Mechanisms and Fatigue Testing. NATO Science and Technology Organization Educational Notes, EN-AVT 207-214. Schutz W. 1996. A History of Fatigue. Engineering Fracture Mechanics 54(2), 263‒300. Nehila, A., Li, W., Zhao, H., 2018. Interior failure mechanism and life prediction of surface-treated 17CrNi steel under high and very high cycle fatigue. Fatigue and Fracture Engineering Materials and Structures 41, 1–12. Kitagawa, H., Takahashi, S., 1976. Applicability of fracture mechanics to vary small cracks or cracks in early stage. Proceedings of 2nd international conference on mechanical behavior of materials OH, USA, ASM International, 627-631. Haddad, E.I., Topper, M.H., Smith, K.N., 1979. Prediction of non propagating cracks. Engineering Fracture Mechanics 11, 573-584. Atzori, B, Lazzarin, P., Meneghetti, G., 2003. Fracture mechanics and notch sensitivity. Fatigue and Fracture of Engineering Materials and Structures 26, 257-267. Janssen, M., Zuidema, J., Wanhill, R.J.H., 2004. Fracture mechanics. Taylor and Francis Routledge New York, USA. Bannantine, J., 1990. Fundamentals of Metal Fatigue Analysis, 244. Murakami Y, Nomoto T, Ueda T. 1999. Factors influencing the mechanism of superlong fatigue failure in steels. Fatigue and Fracture of Engineering Materials and Structures 22, 581-590.