Issue 30

J. Toribio et alii, Frattura ed Integrità Strutturale, 30 (2014) 40-47; DOI: 10.3221/IGF-ESIS.30.06 47 [6] Kabo, E., Ekberg, A., Fatigue initiation in railway wheels—a numerical study of the influence of defects, Wear, 253 (2002) 26–34. [7] Kabo, E., Ekberg, A., Material defects in rolling contact fatigue of railway wheels—the influence of defect size, Wear, 258 (2005) 1194–1200. [8] Rider, R. J., Harvey, S. J., Chandler, H. D., Fatigue and ratcheting interactions, Inter. J. Fatigue, 17 (1995) 507–511. [9] Lim, C.B., Kim, K. S., Seong, J. B., Ratcheting and fatigue behavior of a copper alloy under uniaxial cyclic loading with mean stress, Inter. J. Fatigue, 31 (2009) 501–507. [10] Pandkar, A. S., Arakere, N., Subhash, G., Microstructure-sensitive accumulation of plastic strain due to ratcheting in bearing steels subject to rolling fatigue, Inter. J. Fatigue, 63 (2014) 191–202. [11] Glover, D. A ball-rod rolling contact fatigue tester, in: Rolling contact fatigue testing of bearing steels. ASTM STP 771, American Society for Testing and Materials, Baltimore, MD, (1982) 107–124. [12] Bhattacharyya, A., Subhash, G., Arakere, N., Evolution of subsurface plastic zone due to rolling contact fatigue of M-50 NiL case hardened bearing steel, Inter. J. Fatigue, 59 (2014) 102–113. [13] Arakere, N. K., Subhash, G., Work hardening response of M50-NiL case hardened bearing steel during shakedown in rolling contact fatigue, Mater. Sci. Tech., 28 (2012) 34–38. [14] Pilkey, W. D., Formulas for stress, strain, and structural matrices, Second ed., John Wiley & Sons, Inc., Hoboken, NJ, USA, (2008). [15] Toribio, J., Lorenzo, M., Vergara, D., Kharin, V., Hydrogen degradation of cold-drawn wires: a numerical analysis of drawing-induced residual stresses and strains, Corros., 67 (2011) 075001–075008. [16] Toribio, J., Kharin, V., Lorenzo, M., Vergara, D., Role of drawing-induced residual stresses and strains in the hydrogen embrittlement susceptibility of prestressing steels, Corros. Sci., 53 (2011) 3346–3355. [17] Toribio, J., Kharin, V., Vergara, D., Lorenzo, M., Two-dimensional numerical modelling of hydrogen diffusion in metals assisted by both stress and strain, Adv. Mater. Res., 138 (2010) 117–126.