Please use this identifier to cite or link to this item: https://apo.ansto.gov.au/dspace/handle/10238/10451
Title: Tribological behaviour of laser cladded rail under rolling contact test
Authors: Roy, T
Abrahams, R
Lai, Q
Mutton, PJ
Soodi, M
Paradowska, AM
Yan, WW
Keywords: Rolling
Fatigue
Railways
Cladding
Steels
Microhardness
Wear
Deformation
Issue Date: 2017
Publisher: American Society of Civil Engineers (ASCE)
Citation: Roy, T., Abrahams, R., Lai, Q., Mutton, P., Soodi, M., Paradowska, A., & Yan, W. (2017). Tribological behaviour of laser cladded rail under rolling contact test. In Zhai, W. & Wang, K. C. P. (eds) (2018). ICRT 2017: Railway Development, Operations, and Maintenance. Paper presented to the Proceedings of the First International Conference on Rail Transportation (ICRT) , 10-12 July 2017, Chengdu, China. Retrieved from https://ascelibrary.org/doi/abs/10.1061/9780784481257.045 and http://www.proceedings.com/38932.html
Abstract: Rolling contact fatigue (RCF), a pervasive and insidious problem on all types of railway systems, dominates the cause of maintenance and replacement on heavy-haul rail lines. It also plays a significant role in economic and safety challenge for commuter and metro lines. Intensive research around the world has been taken to improve RCF by introducing different surface modification techniques. Laser cladding has attracted attention because of its advanced and more efficient repairing technique. In this present investigation, influence of laser cladding on wear and RCF of a premium hypereutectoid rail steel, currently used in Australian heavy haul railways, has been studied under a roller-on-disc test rig in laboratory conditions. Rolling test was carried out using a roller made of heat treated harden steel with laser cladded and un-cladded rail steel discs. Micro-hardness of the roller was 820-850 HV5 to minimize plastic deformation and wear of the roller. Considering the real scenario of rail-wheel contacts, tests were run under partial sliding and rolling motion. The maximum contact pressure was similar to that experienced in rail due to rail-wheel contact. Wear resistance of laser cladded specimen was found to be significantly improved compared to non-cladded rail steel. © 1996–2021, American Society of Civil Engineers
URI: https://ascelibrary.org/doi/abs/10.1061/9780784481257.045
https://apo.ansto.gov.au/dspace/handle/10238/10451
ISBN: 9781510860124
Appears in Collections:Conference Publications

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