Related references
Note: Only part of the references are listed.Vehicle tests showing how the weather in autumn influences the wheel-rail traction characteristics
Alexander Meierhofer et al.
PROCEEDINGS OF THE INSTITUTION OF MECHANICAL ENGINEERS PART F-JOURNAL OF RAIL AND RAPID TRANSIT (2020)
Role of microstructure and crystallographic orientation in fatigue crack failure analysis of a heavy haul railway rail
Mohammad Masoumi et al.
ENGINEERING FAILURE ANALYSIS (2019)
Study on wear transition mechanism and wear map of CL60 wheel material under dry and wet conditions
L. C. Guo et al.
WEAR (2019)
Benchmarking of premium rail material wear
P. Christoforou et al.
WEAR (2019)
Wear and damage transitions of two kinds of wheel materials in the rolling-sliding contact
W. T. Zhu et al.
WEAR (2018)
The tridimensional gradient of microstructure in worn rails - Experimental characterization of plastic deformation accumulated by RCF
Benoit Dylewski et al.
WEAR (2017)
Tribological Aspects of Wheel-Rail Contact: A Review of Wear Mechanisms and Effective Factors on Rolling Contact Fatigue
Hesam Soleimani et al.
URBAN RAIL TRANSIT (2017)
Modeling surface rolling contact fatigue crack initiation taking severe plastic shear deformation into account
G. Trummer et al.
WEAR (2016)
Experimental investigation on the effect of operating speeds on wear and rolling contact fatigue damage of wheel materials
C. G. He et al.
WEAR (2016)
Wear and damage transitions of wheel and rail materials under various contact conditions
W. J. Wang et al.
WEAR (2016)
Effect of surface topography with different groove angles on tribological behavior of the wheel/rail contact using alternative machine
A. Khalladi et al.
FRICTION (2016)
Effects of rail materials and axle loads on the wear behavior of wheel/rail steels
Jihua Liu et al.
ADVANCES IN MECHANICAL ENGINEERING (2016)
Experimental study on the wear and damage behavior of different wheel/rail materials
Wen-jian Wang et al.
PROCEEDINGS OF THE INSTITUTION OF MECHANICAL ENGINEERS PART F-JOURNAL OF RAIL AND RAPID TRANSIT (2016)
Experimental investigation on the effect of tangential force on wear and rolling contact fatigue behaviors of wheel material
C. G. He et al.
TRIBOLOGY INTERNATIONAL (2015)
Investigation on the effect of rotational speed on rolling wear and damage behaviors of wheel/rail materials
H. H. Ding et al.
WEAR (2015)
On the relationships among wheel-rail surface topography, interface noise and tribological transitions
Yezhe Lyu et al.
WEAR (2015)
Wheel and rail wear-Understanding the effects of water and grease
C. Hardwick et al.
WEAR (2014)
An approximate model to predict near-surface ratcheting of rails under high traction coefficients
G. Trummer et al.
WEAR (2014)
Progressive damage assessment in the near-surface layer of railway wheel-rail couple under cyclic contact
G. Donzella et al.
WEAR (2011)
Experimental and numerical modelling of wheel-rail contact and wear
A. Rovira et al.
WEAR (2011)
Relationship between surface oxide layer and transient traction characteristics for two steel rollers under unlubricated and water lubricated conditions
Tsunamitsu Nakahara et al.
WEAR (2011)
Twin disc assessment of wheel/rail adhesion
E. A. Gallardo-Hernandez et al.
WEAR (2008)
Simulation of railway wheel profile development due to wear - influence of disc braking and contact environment
R Enblom et al.
WEAR (2005)
Wear mechanisms and transitions in railway wheel steels
R Lewis et al.
PROCEEDINGS OF THE INSTITUTION OF MECHANICAL ENGINEERS PART J-JOURNAL OF ENGINEERING TRIBOLOGY (2004)
Anisotropy and rolling contact fatigue of railway wheels
A Ekberg et al.
INTERNATIONAL JOURNAL OF FATIGUE (2001)