Estimation of the Fatigue Life of High Strength Steel  Under ...   20 1

           11.  tagoda T., (2001) Energy models for fatigue life estimation under random loading - Part
              I1 - Verification of the model, Int.J. Fatigue, vo1.23, No 6, pp.481-489
           12.  Morel F.,  (1 998) A  fatigue life prediction method based on a mesoscopic approach in
              constant  amplitude  multiaxial  loading,  Fatigue  Fract.  Engng.  Mater.  Struct., v01.2 1,
              pp.241-256
           13.  Morel F., (1998) A mesoscopic approach to describe the high cycle fatigue behaviour of
              metals submitted to multiaxial loading, Scientifzc Papers of  the Institute of Materials Sci-
               ence  and Applied Mechanics of the  Wroctaw  University of  Technology No  60, Confer-
               ences No 8, Wroclaw, pp. 12-54
           14.  Morel  F.,  (1996)  Fatigue  multiaxiale  sous  chargement d’amplitude  variable,  Docteur
              these, CNRS, ENSMA, Futuroscope, France, ps.288
           15.  Orowan  E.,  (1939)  Theory of the  fatigue metals, Proceedings of  the  Royal  Academy,
              London, A, 171
           16.  Papadopoulos Y.V., (1996) Exploring the high-cycle fatigue behaviour of metals from the
              mesoscopic scale, J. Mech. Behav. Mat., vo1.6, pp.93-118
           17.  Dang-Van K.,  (1 993) Macro-micro approach in high-cycle multiaxial fatigue, Advances
               in Multiaxial  Fatigue,  ASTM  STP  1191, D.L.McDowell  and  R.Ellis,  Eds.,  American
               Society for Testing and Materials, Philadelphia, pp.120-130
           18.  ASTM E 739-91 (1998) Standard practice for: Statistical analysis of linear or linearized
               stress-life (S - N) and strain-life (E  - N) fatigue data, Annual Book of  ASTM Stundurds,
              vol. 03.01, Philadelphia, pp.614-620
           19.  Kliman V., (1985) Fatigue life estimation under random loading using the energy criteria,
              Int. J. Fatigue, vo1.7, No 1, pp.39-44
           20.  Grzelak J., Lagoda T. and Macha E., (1991) Spectral analysis of the criteria for multiaxial
              random fatigue, Mat. -win.  U. Werkstofftech, Nr 22, pp.85-98
           21.  Lowisch G., Bomas H. and Mayr P.,  (1994) Fatigue crack initiation and propagation in
              ductile steels under multiaxial loading, Fourth Int. Conf  on Biaxial/Multiaxial Fatigue,
              St Germain en Laye, Vol. 11, pp.27-42
           22.  Macha E., (1989) Simulation investigations of the position of fatigue fracture plane in
              materials with biaxial loads, Mat. -win.  U. Werktofftech., Heft 4/89, pp.132-136;  Heft
               5/89, pp.153-163
           23.  Miner  M.A.,  (1945) Cumulative damage in fatigue, J.  of Applied Mechanics,  vol.  12,
              pp. 159-1 64
           24.  Palmgren A.,  (1924) Die Lebensdauer von Kugellagem, VDI-Z, vol. 68, SS.339-341
           25.  Serensen S.V., Kogayev V.P. and Shneyderovich R.M.,  (1975) Nesushchaja sposobnost i
              raschet detaley mashin na prochnost, Izd. 3-e, Mashinostroenie, Moskva, ps.488 (in RUS-
               sion)