Page 328 - Кулик В.В.
P. 328
328
propagation of rail rolling contact fatigue cracks. Proceedings of the Second Mini
Conference on Contact Mechanics and Wear of Rail/Wheel Systems. Budapest,
Hungary, 1996. P. 134–143.
221. Chue C.H., Chung H.H. Pitting formation under rolling contact.
Theoretical and Applied Fracture Mechanics. 2000. Vol. 34. P. 1–9.
222. Gim´enez J.G., Sobejano H. Theoretical approach to the crack growth
and fracture of wheels. Proceedings of the 11th International Wheelset Congress.
Paris, 1995. P. 15–20.
223. Brown M.W., Hemsworth S., Wong S.L., Allen R.J. Rolling contact
fatigue crack growth in rail steel. Proceedings of the Second Mini Conference on
Contact Mechanics and Wear of Rail/Wheel Systems. Budapest, Hungary, 1996. P.
144–153.
224. Sheppard S., Comninou M. The mechanics of surface fatigue failure.
Proceedings of the Conference on Contact Mechanics and Wear of Rail/Wheel
Systems II. University of Waterloo Press, Ringstone, RI, USA, 1986, P. 407–420.
225. Ekberg A., Kabo E., Andersson H. An engineering model for
prediction of rolling contact fatigue of railway wheels. Fatigue and Fracture of
Engineering Materials and Structures. 2002. Vol. 25. P. 899–909.
226. Cheng W., Cheng H.S., Keer L.M. Experimental investigation on
rolling/sliding contact fatigue initiation with artificial defects. Tribology
Transactions. 1994. Vol. 37. P. 51–58.
227. Clayton P., Su X. Surface initiated fatigue of pearlitic and bainitic
steels under water lubricated rolling/sliding contact. Wear. 1996. Vol. 200. P. 63–
73.
228. Muster H., Schmedders H., Wick K., Pradier H. Rail rolling contact
fatigue – The performance of naturally hard and head-hardened rails in track.
Wear. 1996. Vol. 191. P. 54–64.
229. Ishida M., Abe N. Experimental study of the effect of preventive
grinding for Shinkansen rails. Proceedings of the 6th International Heavy Haul
Conference. Cape Town, 1997. P. 565–575.
