Issue 38

E. Shams et alii, Frattura ed Integrità Strutturale, 38 (2016) 114-120; DOI: 10.3221/IGF-ESIS.38.15 120 [5] Kaffenberger, M., Vormwald, M., Schwingfestigkeit von Schweissnahtenden und Übertragbarkeit von Schweissverbindungswöhlerlinien, Mater. Test., 55 (2013) 553-560. [6] Shams, E., Malikoutsakis, M., Savaidis, G., Vormwald, M., Notch stress and fracture mechanics based assessment of fatigue of seam weld ends under shear loading, Fatigue Fract. Eng. Mater. Struct., 37 (2014) 740-750. [7] Neuber, H., Über die Berücksichtigung der Spannungskonzentration bei Festigkeitsberechnungen, Konstruktion, 20-7 (1968) 245-251. [8] Weibull, W., Zur Abhängigkeit der Festigkeit von der Probengröße, Ingenieur-Archiv, 28 (1959) 360-362. [9] 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. [10] Eibl, M., Sonsino, C.M., Kaufmann, H., Zhang, G., Fatigue assessment of laser welded thin sheet aluminium, Int. J. Fatigue, 25 (2003) 719-731. [11] Wiebesiek, J., Störzel, K., Bruder, T., Kaufmann, H., Multiaxial fatigue behaviour of laserbeam-welded thin steel and aluminium sheets under proportional and non-proportional combined loading, Int. J. Fatigue, 33 (2011) 992-1005. [12] Vormwald, M., Multi-challenge aspects in fatigue due to the combined occurrence of multiaxiality, variable amplitude loading, and size effects, Frattura ed Integrità Strutturale, 33 (2015) 253-261. [13] Hobbacher, A.F., Recommendations for Fatigue Design of Welded Joints and Components, Springer, Switzerland, (2016).