Issue 30

J. Toribio et alii, Frattura ed Integrità Strutturale, 30 (2014) 424-430; DOI: 10.3221/IGF-ESIS.30.51 430 [8] Modi, O.P., Deshmukh, N., Mondal, D.P., Jha, A.K., Yegneswaran, A.H., Khaira, H.K., Effect of interlamellar spacing on the mechanical properties of 0.65% C steel, Mater. Charact., 46 (2001) 347-352. [9] Elwazri, A.M., Wanjara, P., Yue, S., The effect of microstructural characteristics of pearlite on the mechanical properties of hypereutectoid steel, Mater. Sci. Eng. A, 404 (2005) 91-98. [10] Yahyaoui, H., Sidhom, H., Braham, C., Baczmanski, A., Effect of interlamellar spacing on the elastoplastic behavior of C70 pearlitic steel: experimental results and self-consistent modeling, Mater. Design, 55 (2014) 888-897. [11] Dollar, M., Bernstein, I.M., Thompson, A.W., Influence of deformation substructure on flow and fracture of fully pearlitic steel, Acta Metall., 36 (1988) 311-320. [12] da Fonseca, M.d.G.M., de Almeida, L.H., Gomes, L.C.F.C., Le May, I., Effects of microstructural parameters on the mechanical properties of eutectoid rail steels, Mater. Charact., 39 (1997) 1-14. [13] Bae, C.M., Nam, W.J., Lee, C.S., Effect of microstructural features on ductility in hypo-eutectoid steels, Scripta Mater., 41 (1999) 605-610. [14] Lewandowski, J.J., Thompson, A.W., Effects of the prior austenite grain size on the ductility of fully pearlitic eutectoid steel, Metall. Trans., 17A (1986) 461-472. [15] Izotov, V.I., Pozdnyakov, V.A., Luk’yanenko, E.V., Usanova, O.Yu., Filippov, G.A., Influence of the pearlite fineness on the mechanical properties, deformation behavior, and fracture characteristics of carbon steel, Phys. Metal+ Metallography, 103 (2007) 519-529. [16] Porter, D.A., Easterling, K.E., Smith, G.D.W., Dynamic studies of the tensile deformation and fracture of pearlite, Acta Metall., 26 (1978) 1405-1422. [17] Abrams, H., Grain size measurement by the intercept method, Metallography, 4 (1971) 59-78. [18] Hu, X., Van Houtte, P., Liebeherr, M., Walentek, A., Seefeldt, M., Vandekinderen, H., Modeling work hardening of pearlitic steels by phenomenological and Taylor-type micromechanical models, Acta Mater., 54 (2006) 1029-1040. [19] Park, Y.J., Bernstein, I.M., The process of crack initiation and effective grain size for cleavage fracture in pearlitic eutectoid steel, Metall. Trans., 10A (1979) 1653-1664. [20] Miller, L.E., Smith, G.C., Tensile fractures in carbon steels, J. Iron Steel Inst., 208 (1970) 998-1005.