Issue 48

A.C. de Oliveria Miranda et alii, Frattura ed Integrità Strutturale, 48 (2019) 611-629; DOI: 10.3221/IGF-ESIS.48.59 629 [24] Carpinteri, A., Brighenti, R., Spagnoli, A. (2000). Fatigue growth simulation of part-through flaws in thick-walled pipes under rotary bending. Int J Fatigue 22, pp. 1-9. [25] Hertzberg, R.W., Nordberg, H., Manson, J.A. (1970). Fatigue crack propagation in polymeric materials. J Mater Science 5, pp. 521-526. [26] Kitagawa, M. (1974). Fatigue Crack Growth in Polycarbonate. Bulletin JSME 17, pp. 427-433. [27] Martin, G.C., Gerberich, W.W. (1976). Temperature effects on fatigue crack growth in polycarbonate. J Mater Science 11, pp. 231-238. [28] Radon, J.C., Chauhan, P., Culver, L.E. (1976). The influence of temperature and frequency on fatigue crack propagation in polymers. Colloid Polymer Science 254, pp. 382-388. [29] Fraser, R.A.W., Ward, I.M. (1978). Temperature dependence of craze shape and fracture in polycarbonate. Polymer 19, pp. 220-224. [30] Sehanobish, K., Haddaoui, N., Moet, A. (1993). Effect of thickness on ductile fatigue crack propagation in polycarbonate. J Mater Science 28, pp. 1360-1366. [31] Zuo, J., Deng, X., Sutton, M.A. (2004). Crack Tunneling: Effect of Stress Constraint. ASME 2004 Int Mech Eng Congress Exposition, Anaheim, CA, USA.