Issue34

Y. Nakai et alii, Frattura ed Integrità Strutturale, 34 (2014) 246-254; DOI: 10.3221/IGF-ESIS.34.26 254 [5] Stiénon, A., Fazekasa, A., Buffièrea, J.-Y., Vincenta, A., Daguierb, P., Merchi, F., A new methodology based on X-ray micro-tomography to estimate stress concentrations around inclusions in high strength steels, Materials Sci. Eng. A, 513-514 (2009) 376-383. [6] Stiénon, A., Fazekat, A., Buffièrea, J.-Y., Daguierb, P., Merchi, F., Vincent, A., A new methodology for predicting fatigue properties of bearing steels: From X-Ray micro-tomography and ultrasonic measurements to the bearing lives distribution, J. ASTM Int., 7 (2010). DOI: 10.1520/JAI102532. [7] Shiozawa, D., Nakai, Y., Fukuda, Y., Neishi, Y., Makino, T., Observation of cracks in ccrbon steel under contact rolling fatigue by micro CT imaging using ultra-bright synchrotron radiation, Proc. 15th Int. Conf. Exp. Mech., CD- ROM, (2012) 2635. [8] Makino, T., Neishi, Y., Shiozawa, D., Fukuda, Y., Nakai, Y., Evaluation of rolling contact fatigue crack path in high strength steel with artificial defects, Int. J. Fatigue, 68 (2014) 168-177. [9] Shiozawa, D., Makino, T., Neishi, Y., Nakai, Y., Observation of rolling contact fatigue cracks by laminography using ultra-bright synchrotron radiation, Procedia Materials Science, 3 (2014) 154-164. [10] Uhrus, L.O., Through-hardening steels for ball bearings-effect of inclusions on endurance, Iron Steel Inst., 208 (1970) 851-855.