Issue 41

F. Chebat et alii, Frattura ed Integrità Strutturale, 41 (2017) 447-455; DOI: 10.3221/IGF-ESIS.41.56 455 [21] Singh, P.J., Achar, D.R.G., Guha, B., Nordberg H., Fatigue life prediction of gas tungsten arc welded AISI 304L cruciform joints different LOP sizes, Int. J. Fatigue, 25 (2003) 1-7. [22] Singh, P.J., Guha, B., Achar, D.R.G., Nordberg, H., Fatigue life prediction improvement of AISI 304L cruciform welded joints by cryogenic treatment, Eng. Fail. Anal. 10 (2003) 1-12. [23] Lazzarin, P., Sonsino, C.M., Zambardi, R., A Notch Stress Intensity approach to predict the fatigue behaviour of T butt welds between tube and flange when subjected to in–phase bending and torsion loading, Fatigue Fract. Eng. Mater. Struct. 27 (2004) 127-141. [24] Sheppard, S.D., Field effects in fatigue crack initiation: long life fatigue strength. Trans. ASME, J. Mech. Design 113 (1991) 188-194. [25] Sonsino, C.M., Multiaxial fatigue of welded joints under in-phase and out-of-phase local strains and stresses, Int. J. Fatigue 17 (1995) 55-70. [26] Rulmeca Bulk Catalogue, 2014 [27] Berto, F., Campagnolo, A., Chebat, F., Cincera, M., Santini, M., Fatigue strength of steel rollers with failure occurring at the weld root based on the local strain energy values: modelling and fatigue assessment, Int. J. Fatigue, 82 (2016) 643–657. [28] Williams, M.L., Stress singularities resulting from various boundary conditions in angular corners of plates in extension, J. Appl. Mech. 19 (1952) 526-528. [29] Gross, R., Mendelson, A., Plane Elastostatic Analysis of V-Notched Plates, Int. J. Fract. 8 (1972) 267-276. [30] Qian, J., Hasebe, N., Property of eigenvalues and eigenfunctions for an interface V-notch in antiplane elasticity, Eng. Fract. Mech. 56 (1997) 729–734. [31] Zappalorto, M., Lazzarin, P., Yates, J.R., Elastic stress distributions resulting from hyperbolic and parabolic notches in round shafts under torsion and uniform antiplane shear loadings, Int. J. Solid. Struct., 45 (2008) 4879-4901. [32] Lazzarin, P., Tovo R., A unified approach to the evaluation of linear elastic fields in the neighbourhood of cracks and notches, Int. J. Fract., 78 (1996) 3-19. [33] Lazzarin, P., Zambardi, R., A finite-volume-energy based approach to predict the static and fatigue behaviour of components with sharp V-shaped notches, Int. J. Fract. 112 (2001) 275-298. [34] Berto, F., Campagnolo, A., Lazzarin, P., Fatigue strength of severely notched specimens made of Ti–6Al–4V under multiaxial loading, Fatigue Fract. Eng. Mater. Struct. 38 (2015) 503–517. [35] Seweryn, A., Poskrobko, S., Mróz, Z., Brittle fracture in plane elements with sharp notches under mixed-mode loading, J. Eng. Mech. 123 (1997) 535-543. [36] Kihara, S., Yoshii, A., A strength evaluation method of a sharply notched structure by a new parameter, “The Equivalent Stress Intensity Factor”. JSME Int. J., 34 (1991) 70-75. [37] Livieri, P., Lazzarin, P., Notch Stress Intensity Factors and fatigue strength of aluminium and steel welded joints, Int. J. Fract. 133 (2005) 247-276. [38] Atzori, B., Dattoma, V., A comparison of the fatigue behaviour of welded joints in steels and in aluminium alloys, IIW Doc XXXIII (1983) 1089-1983. [39] Haibach, E., Service Fatigue-Strength – Methods and data for structural analysis. Dusseldorf, VDI (1989). [40] Lazzarin, P., Berto, F., Gomez, F.J., Zappalorto, M., Some advantages derived from the use of the strain energy density over a control volume in fatigue strength assessments of welded joints, Int. J. Fatigue, 30 (2008) 1345-1357 . [41] Lazzarin, P., Berto, F., Zappalorto, M., Rapid calculations of notch stress intensity factors based on averaged strain energy density from coarse meshes: Theoretical bases and applications, Int. J. Fatigue, 32 (2010) 1559–1567. [42] Meneghetti, G., Campagnolo, A., Berto, F., Atzori, B., Averaged strain energy density evaluated rapidly from the singular peak stresses by FEM: cracked components under mixed-mode (I+II) loading, Theor. Appl. Fract. Mech., 79 (2015) 113–124. [43] Gallo, P., Berto, F., Glinka, G Generalized approach to estimation of strains and stresses at blunt V-notches under non-localized creep, Fatigue Fract. Eng. Mater. Struct 39 (2016), 292-306.