Issue34

T. Itoh et alii, Frattura ed Integrità Strutturale, 34 (2015) 487-497; DOI: 10.3221/IGF-ESIS.34.54 497 [21] McDiarmid, D.L., A shear stress based critical plane criterion of multiaxial fatigue failure for design and life prediction. Fatigue Fract Eng Mater Struct, 17(12) (1994) 1475  1484. [22] Brown, M.W., Miller, K.J., A theory for fatigue under multiaxial stress-strain conditions. In: Proc institution of mechanical engineering, 187 (1973) 745  756. [23] Brown, M.W., Wang, C.H., A path-independent parameter for fatigue under proportional and non-proportional loading. Fatigue Fract Eng Mater Struct, 16(12) (1993) 1285-1298. [24] Smith, R.N., Watson, P.P., Topper, T.H., A stress-strain parameter for the fatigue of metals. J Materials, 5(4) (1970) 767  778. [25] Ogata, T., Nitta, A., Evaluation of multiaxial low-cycle fatigue failure based on new criterion and its application to high temperature structural design. Japan: Journal of the Society of Materials Science, 42 (1993) 77  72.