Issue 41

F. Berto, Frattura ed Integrità Strutturale, 41 (2017) 464-474; DOI: 10.3221/IGF-ESIS.41.58 473 [2] Neuber, H., Űber die Berücksichtigung der Spannungskonzentration bei Festigkeitsberechnungen. Konstruktion, 20 (1968) 245-251. [3] Neuber, H., Kerbspannungslehre, 3rd ed. Berlin: Springer-Verlag; (1985). [4] Filippi, S., Lazzarin, P., Tovo, R., Developments of some explicit formulas useful to describe elastic stress fields ahead of notches in plates. Int J Solids Struct, 39 (2002) 4543-4565. [5] Berto, F., Lazzarin, P., Radaj, D., Fictitious notch rounding concept applied to sharp V-notches: evaluation of the microstructural support factor for different failure hypotheses. Part I: Basic stress equations. Eng Fract Mech, 75 (2008) 3060-3072. [6] Berto, F., Lazzarin, P., Radaj, R., Fictitious notch rounding concept applied to sharp V-notches: evaluation of the microstructural support factor for different failure hypotheses. Part II: Microstructural support analysis. Eng Fract Mech, 76 (2009) 1151-1175. [7] Wieghardt, K., Über das Spalten und Zerreiβen elastischer Körper. Z. Mathematik u. Physik 1907; 55: 60-103; translated in English by H.P. Rossmanith, Fatigue Fract Engng Mater Struct, 18 (1995) 1371-1405. [8] Weiss, V., Eine Bruchmechanik fűr Kerben. Schweiz Arch Angew Wiss Techn, 37 (1971) 1-7. [9] Neuber, H., Zur Theorie der technischen Formzahl. Forsch Ing Wes, 7 (1936) 271-274. [10] Peterson, R.E., Relation between stress analysis and fatigue of metals. Proc. SESA, 11 (1950) 199-206. [11] Atzori, B., Lazzarin, P., Tovo, R., Evaluation of the fatigue strength of a deep drawing steel. Österr Ing Arch Z, 137 (1992) 556-561. [12] Lazzarin, P., Tovo, R., Meneghetti, G., Fatigue crack initiation and propagation phases near notches in metals with low notch sensitivity. Int J Fatigue, 19 (1997) 647-657. [13] El Haddad, M.H., Topper, T.H., Smith, K.N., Prediction of non-propagating cracks. Eng Fract Mech, 11 (1979) 573- 584. [14] Radaj, D., Näherungsweise Berechnung der Formzahl von Schweiβnähten. Schw Schn, 21 (1969) 97-105, 151-158. [15] Radaj, D., Design and Analysis of Fatigue Resistant Welded Structures, Cambridge: Abington Publishing; (1990). [16] Radaj, D., Ermüdungsfestigkeit, 2nd ed. Berlin: Springer Verlag; (2003). [17] Radaj, D., Sonsino, C.M., Fricke, W., Fatigue Assessment of Welded Joints by Local Approaches, 2nd ed. Cambridge: Woodhead Publishing; Boca Raton, FL: CRC Press; (2006). [18] Hobbacher, A., (Ed.) Fatigue Design of Welded Joints and Components. Abington Publishing, Cambridge, UK, (1996) (IIW Doc. XIII-1539/XV-845-96) and update 2008 (IIW Doc. XIII-2151-07/XV-1254-07). Weld Res Coun, New York, Bull 520, (2009). [19] Berto, F., Zappalorto, M., Fictitious notch rounding concept applied to V-notches with endholes under mode 1 loading. Int J Fract, 171 (2011) 91–98. [20] Berto, F., Zappalorto, M., The fictitious notch rounding approach applied to V-notches with root holes subjected to mode 1 loading. J Strain Anal, 47 (2012) 176–186. [21] Zappalorto, M., Lazzarin, P., In-plane and out-of-plane stress field solutions for V-notches with end holes. Int J Fract, 168 (2011) 167-180. [22] Berto, F., Fictitious notch rounding concept applied to V-notches with end holes under mode 3 loading. Int J Fatigue, 38 (2012) 188–193. [23] Radaj, D., Zhang, S., On the relations between notch stress and crack stress intensity in plane shear and mixed mode loading. Eng Fract Mech, 44 (1993) 691-704. [24] Berto, F., Lazzarin, P., Fictitious notch rounding approach of pointed V-notch under in-plane shear. Theor Appl Fract Mech, 53 (2010) 127-135. [25] Erdogan, F., Sih, C.G., On the crack extension in plates under plane loading and transverse shear. J Basic Eng, 85 (1963) 519-525. [26] Sih, G.C., Strain-energy-density factor applied to mixed mode crack problems. Int J Fract, 10 (1974) 305-321. [27] Berto, F., Lazzarin, P., Radaj, D., Fictitious notch rounding concept applied to V-notches with root holes subjected to in-plane shear loading. Engng Fract Mech, 79 (2012) 281-294. [28] Radaj, D., Lazzarin, P., Berto, F., Generalised Neuber concept of fictitious notch rounding. Int J Fatigue, 51 (2013) 105-115. [29] Radaj, D., Vormwald, M., Advanced Methods of Fatigue Assessment. Berlin: Springer-Verlag (2013). [30] Williams, M.L., Stress singularities resulting from various boundary conditions in angular corners on plates in tension. J Appl Mech, 19 (1952) 526-528. [31] Gross, R., Mendelson, A., Plane Elastostatic Analysis of V-notched plates. Int J Fract Mech, 8 (1972) 267-276.