329

                         230.  Ishida  M.,  Abe  N.,  Moto  T.  Experimental  study  on  the  effect  of

                  preventive  grinding  on  RCF  defects  on  Shinkansen  rails.  Proceedings  of  the

                  IHHA’99. Moscow, Russia, 1999. P. 511–516.

                         231.  Hiensch  E.J.M., Kapoor  A., Josefson  B.L., Ringsberg  J.W., Nielsen

                  J.C.O.,  Franklin  F.J.  Two-material  rail  development  to  prevent  rolling  contact

                  fatigue and to reduce noise levels in curved rail track. Proceedings of the World

                  Congress on Railway Research. Koln, Germany, 2001. 16 p.

                         232.  Demilly  F.,  Lonsdale  C.,  McCabe  T.,  Del  Fabbro  V.,  Vallart  E.,

                  Caldwell  B.  Wheel  rim  residual  stress  measurement  using  ultrasonic  testing.

                  Proceedings of the 13th International Wheelset Congress. Rome, Italy, 2001.

                         233.  Alfredsson  B.  A  study  on  contact  fatigue  mechanisms.  PhD  thesis.

                  Department of Solid Mechanics, Royal Institute of Technology, Sweden, 2000.

                         234.  Olsson M. Contact fatigue and tensile stresses. Beynon, et al. (Ed.).

                  Engineering Against Fatigue. AA Balkema, Netherlands, 1999. P. 651–657.

                         235.  Fujii Y., Maeda K. Flaking failure in rolling contact fatigue caused by

                  indentations on mating surface. I. Reproduction of flaking failure accompanied by

                  cracks extending bi-directional relative to the load movement. Wear. 2002. Vol.

                  252. P. 787–798.


                         236.  Fujii Y., Maeda K. Flaking failure in rolling contact fatigue caused by
                  indentations  on  mating  surface.  II.  Formation  process  of  flaking  failure


                  accompanied by cracks extending bi-directionally relative to the load movement.
                  Wear. 2002. Vol. 252. P. 799–810.


                         237.  Fujii Y., Maeda K. Flaking failure in rolling contact fatigue caused by
                  indentations on mating surface. III. Mechanism of crack growth in the direction


                  opposite to the load movement. Wear. 2002. Vol. 252. P. 811–823.

                         238.  Clarke  M.  Wheel  rolling  contact  fatigue  (RCF)  and  rim  defects

                  investigation to further knowledge of the causes of RCF and to determine control

                  measures. RSSB Wheel Steel Guide, 2008. Rail Safety and Standards Board.

                         239.  Hernandes F.C.R., Cummings S., Kalay S., Stone  D. Properties and

                  microstructure of high performance wheel. Wear. 2011. Vol. 271. P. 374–381.