Issue 33

F.V. Antunes et alii, Frattura ed Integrità Strutturale, 33 (2015) 199-208; DOI: 10.3221/IGF-ESIS.33.25 208 [42] Ould Chikh, B., Imad, A., Benguediab, M., Influence of the cyclic plastic zone size on the propagation of the fatigue crack in case of 12NC6 steel, Computational Materials Science, 43 (2008) 1010–1017. [43] Rice, J.R., Mechanics of crack tip deformation and extension by fatigue. ASTM STP 415 (1967) 247–311. [44] Klingbeil, N.W., A total dissipated energy theory of fatigue crack growth in ductile solids, Int Journal of Fatigue, 25 (2003) 117–28. [45] Bodner, S.R., Davidson, D.L., Lankford, J., A description of fatigue crack growth in terms of plastic work. Engng Fracture Mechanics, 17 (1983) 189–191. [46] Wang, W., Hsu, C-T.T., Fatigue crack growth rate of metal by plastic energy damage accumulation theory, Journal of Engng Mechanics, 120 (1994) 776–795. [47] Liaw, P.K., Kwun, S.I., Fine, M.E., Plastic work of fatigue propagation in steels and aluminum alloys, Metallurgical Transactions A, 12A (1981) 49–55. [48] Ranganathan, N., Jendoubi, N., Benguediab, M., Petit. J., Effect of R-ratio and K level on the hysteretic energy dissipated during fatigue crack propagation, Scripta Metallurgica, 21 (1987) 1045–1049. [49] Antunes, F.V., Correia, L., Ramalho, A.L. A parameter for quantitative analysis of plasticity induced crack closure, Int. J. Fatigue, 71 (2015) 87–97 [50] Ellyin, F., Wu, J., A numerical investigation of the effect of an overload on fatigue crack opening and closure behaviour, Fatigue and Fracture of Engng Materials and Structures, 22 (1999) 835-847. [51] Sunder, R., Porter J., Ashbaugh, N.E., The effect of stress ratio on fatigue crack growth rate in the absence of closure, Int Journal of Fatigue 19 (1997) S211-S221. [52] Shijve, J., Broek, D., The result of a test program based on a gust spectrum with variable amplitude loading, Aircraft Engng, 34 (1962) 314–316. [53] Jones, R.E., Fatigue crack growth retardation after single-cycle peak overload in Ti–6Al–4V titanium alloy, Engng Fract Mech, 5 (1973) 585–604. [54] Suresh, S., Micromechanisms of fatigue crack growth retardation following overloads, Engng Fract Mech, 18 (1983) 577–593. [55] Nicoletto, W., Fatigue crack-tip mechanics in 7075-T6 aluminium alloy from high-sensitivity displacement field measurements, ASTM STP 995 (1989) 415–432.