Issue 33

D. G. Hattingh et alii, Frattura ed Integrità Strutturale, 33 (2015) 382-389; DOI: 10.3221/IGF-ESIS.33.42 389 [13] Susmel, L., Petrone, N., Multiaxial fatigue life estimations for 6082-T6 cylindrical specimens under in-phase and out- of-phase biaxial loadings, in: A. Carpinteri, M. de Freitas and A. Spagnoli (Eds.), Biaxial and Multiaxial fatigue and Fracture, Elsevier and ESIS, (2003) 83-104. [14] Lazzarin, P., Susmel, L., A Stress-Based Method to Predict Lifetime under Multiaxial Fatigue Loadings, Fatigue Fract. Eng. Mat. Struct., 26 (2003) 1171-1187. [15] Susmel, L., Tovo, R., Lazzarin, P., The mean stress effect on the high-cycle fatigue strength from a multiaxial fatigue point of view, Int. J. Fatigue, 27 (2005) 928-943. [16] Susmel, L., Taylor, D., The Modified Wöhler Curve Method applied along with the Theory of Critical Distances to estimate finite life of notched components subjected to complex multiaxial loading paths, Fatigue Fract. Eng. Mat. Struct., 31(12) (2008) 1047-1064. [17] Kaufman, R. P., Topper, T., The influence of static mean stresses applied normal to the maximum shear planes in multiaxial fatigue, in: A. Carpinteri, M. de Freitas and A. Spagnoli (Eds.), Biaxial and Multiaxial fatigue and Fracture, Elsevier and ESIS, (2003) 123-143. [18] Susmel, L., A simple and efficient numerical algorithm to determine the orientation of the critical plane in multiaxial fatigue problems, Int. J. Fatigue, 32 (2010) 1875–1883. [19] Susmel, L., Tovo, R., Socie, D. F., Estimating the orientation of Stage I crack paths through the direction of maximum variance of the resolved shear stress, Int. J. Fatigue, 58 (2014) 94–101. [20] Susmel, L., Tovo, R., On the use of nominal stresses to predict the fatigue strength of welded joints under biaxial cyclic loadings, Fatigue Fract. Engng. Mater. Struct., 27 (2004) 1005-1024. [21] Susmel, L., Nominal stresses and Modified Wöhler Curve Method to perform the fatigue assessment of uniaxially- loaded inclined welds, P. I. Mech. Eng. C-J. Mec., 228 16 (2014) 2871-2880. [22] Susmel, L., Tovo, R., Benasciutti, D., A novel engineering method based on the critical plane concept to estimate the lifetime of weldments subjected to variable amplitude multiaxial fatigue loading, Fatigue Fract. Engng. Mater. Struct., 32 (2009) 441–459. [23] Susmel, L., Tovo, R., Local and structural multiaxial stress states in welded joints under fatigue loading, Int. J. Fatigue, 28 (2006) 564-575. [24] Susmel, L., Three different ways of using the Modified Wöhler Curve Method to perform the multiaxial fatigue assessment of steel and aluminium welded joints, Eng. Fail. Anal., 16 (2009) 1074–1089. [25] Susmel L., Sonsino C. M., Tovo R., Accuracy of the Modified Wöhler Curve Method applied along with the r ref =1 mm concept in estimating lifetime of welded joints subjected to multiaxial fatigue loading, Int. J. Fatigue, 33 (2011) 1075-1091. [26] Susmel, L., Askes, H., Modified Wöhler Curve Method and multiaxial fatigue assessment of thin welded joints, Int. J. Fatigue, 43 (2012) 30–42. [27] Susmel, L., Four stress analysis strategies to use the Modified Wöhler Curve Method to perform the fatigue assessment of weldments subjected to constant and variable amplitude multiaxial fatigue loading, Int. J. Fatigue, 64 (2014) 38-54. [28] Susmel, L., Modified Wöhler Curve Method, Theory of Critical Distances and EUROCODE 3: a novel engineering procedure to predict the lifetime of steel welded joints subjected to both uniaxial and multiaxial fatigue loading, Int. J. Fatigue, 30 (2008) 888-907. [29] Susmel, L., The Modified Wöhler Curve Method calibrated by using standard fatigue curves and applied in conjunction with the Theory of Critical Distances to estimate fatigue lifetime of aluminium weldments, Int. J. Fatigue, 31 (2009) 197-212. [30] Susmel, L., Estimating fatigue lifetime of steel weldments locally damaged by variable amplitude multiaxial stress fields, Int. J. Fatigue, 32 (2010) 1057–1080. [31] Brandt, U., Lawrence, F. V., Sonsino, C. M., Fatigue Crack initiation and growth in AlMg4.5Mn but weldments, Fatigue Fract. Engng. Mater. Struct., 24 (2001) 117-126. [32] Morgenstern, C., Sonsino, C. M., Hobbacher, A., Sorbo, F., Fatigue design of aluminium welded joints by the local stress concept with the fictitious notch radius of r f =1mm, Int. J. Fatigue, 28 (2006) 881-890.