Issue34

J. Pokluda et alii, Frattura ed Integrità Strutturale, 34 (2015) 142-149; DOI: 10.3221/IGF-ESIS.34.15 149 [3] Pokluda, J., Pippan, R., Vojtek, T., Hohenwarter, A., Near-threshold Behaviour of Shear-mode Fatigue Cracks in Metallic Materials, Fatigue Fract Engng Mater Struct, 37 (2014) 232-254. [4] Pook, L.P., Crack Paths, Wit Press, Southampton - Boston, (2002). [5] Stampfl, J., Scherer, S., Gruber, M., Kolednik, O., Reconstruction of surface topographies by scanning electron microscopy for application in fracture research, Appl Phys A, 63 (1996) 341-346. [6] Taylor, J.G., Warin, P.E., Watson, P., Metallographic aspects of fatigue in pearlitic structures, in: Taplin, D.M.R. (Ed.), Advances in Research on the Strength and Fracture of Materials: Fatigue, Vol. 2B, ICF4, Pergamon, Waterloo, (1977). [7] Iacoviello, F., Di Cocco, V., Rossi, A., Cavallini, M., Fatigue crack tip damaging micromechanisms in pearlitic ductile cast irons, Fatigue Fract Engng Mater Struct, 38 (2015) 238-245.