Issue 37

B. Jo et alii, Frattura ed Integrità Strutturale, 37 (2016) 28-37; DOI: 10.3221/IGF-ESIS.37.05 37 REFERENCES [1] Yin, F., Fatemi, A., Monotonic and cyclic deformations of case-hardened steels including residual stress effects, Strain-An Int. J. for Experimental Mechanics, 47 (2011) E74-E83. [2] Baumel, A. J., Seeger, T., The influence of residual stresses and surface strengthening on components fatigue life. In: Fatigue 90, Vol. 1 (1990) (Edited by H. Kitagawa and T. Tanaka), Honolulu, HI, USA, 311-316. [3] Bomas, H., Mary, P., Schleicher, M., Calculation method for the fatigue limit of parts of case hardened steels, Mater. Sci. Eng. A, 234 (1997), 393-396. [4] Zhang, H. Y., Stephens, R. I., Glinka, G., Sub-surface fatigue crack initiation and propagation behavior of induction- hardened shafts under the effects of residual and applied bending stresses. In: Fatigue and Fracture Mechanics, vol. 30 (2000) (Edited by K. L. Jerina and P. C. Paris). ASTM STP 1360, ASTM, West Conshohochen, PA, USA, 240-260. [5] Yin, F., Fatemi, A., Fatigue behavior and life predictions of case-hardened steels, Fatigue and Fract. Eng. Mater. Struct., 32 (2009) 197-213. [6] Shamsaei, N., Fatemi, A. Deformation and fatigue behaviours of case-hardened steels in torsion: experiments and predictions, Int. J. of Fatigue, 31 (2009) 1836-1839. [7] American Iron and Steel Institute (AISI), Bar Steel Fatigue Database, http://barsteelfatigue.autosteel.org [8] Stephens, R.I., Fatemi, A., Stephens, R.R., Fuchs, H.O., Metal Fatigue in Engineering, 2nd ed., Wiley Interscience, (2000). [9] Roessle, M. L., Fatemi, A. Strain-controlled fatigue properties of steels and some simple approximations, Int. J. of Fatigue, 22 (2000) 495-511.