[1] CARTER F W. On the action of a locomotive driving wheel[J]. Proceedings of the Royal Society of London,1926,112(760):151-157.
[2] VERMEULEN P J,JOHNSON K L. Contact of nonspherical elastic bodies transmitting tangential forces[J]. Journal of Applied Mechanics,1964,31(2):338-340.
[3] SHEN Z,LI Z. A fast non-steady state creep force model based on the simplified theory[J]. Wear,1996,191(1-2):242-244.
[4] KALKER J J. The simplified theory of contact[M]. Dordrecht:Springer,1990.
[5] KALKER J J,JOHNSON K. Three-dimensional elastic bodies in rolling contact[M]. Dordrecht:Springer,1990.
[6] KALKER J J. A fast algorithm for the simplified theory of rolling contact[J]. Vehicle System Dynamics,1982,11(1):1-13.
[7] POLACH O. Creep forces in simulations of traction vehicles running on adhesion limit[J]. Wear,2005,258(7-8):992-1000.
[8] NAGASE K. A study of adhesion between the rails and running wheels on main lines:Results of investigations by slipping adhesion test bogie[J]. Proceedings of the Institution of Mechanical Engineers,Part F:Journal of Rail and Rapid Transit,1989,203(16):33-43.
[9] FLETCHER D I,LEWIS S. Creep curve measurement to support wear and adhesion modelling,using a continuously variable creep twin disc machine[J]. Wear,2013,298-299(1):57-65.
[10] ZHANG W H,CHEN J Z,WU X J,et al. Wheel/rail adhesion and analysis by using full scale roller rig[J]. Wear,2002,253(1-2):82-88.
[11] JIN X S,ZHANG W H,ZENG J,et al. Adhesion experiment on a wheel/rail system and its numerical analysis[J]. Proceedings of the Institution of Mechanical Engineers,Part J:Journal of Engineering Tribology,2004,218(4):293-304.
[12] WANG W J,WANG H,WANG H Y,et al. Sub-scale simulation and measurement of railroad wheel/rail adhesion under dry and wet conditions[J]. Wear,2013,302(1-2):1461-1467.
[13] 王文健,郭火明,刘启跃,等. 水油介质下研磨子对轮轨增黏与损伤影响[J]. 机械工程学报,2015,51(5):71-75. WANG Wenjian,GUO Huoming,LIU Qiyue,et al. Effect of abrasive block on improving adhesion and damage of wheel/rail under the water and oil conditions[J]. Journal of Mechanical Engineering,2015,51(5):71-75.
[14] 王文健,郭俊,刘启跃. 不同介质作用下轮轨粘着特性研究[J]. 机械工程学报,2012,48(7):100-104 WANG Wenjian,GUO Jun,LIU Qiyue. Study on adhesion characteristic of wheel/rail under different medium conditions[J]. Journal of Mechanical Engineering,2012,48(7):100-104.
[15] VOLLEBREGT E A H. Numerical modeling of measured railway creep versus creep-force curves with CONTACT[J]. Wear,2013,314(1-2):87-95.
[16] FLETCHER D I. LA new two-dimensional model of rolling-sliding contact creep curves for a range of lubrication types[J]. Proceedings of the Institution of Mechanical Engineers,Part J:Journal of Engineering tribology,2012,227(6):529-537.
[17] ZHU Y,LYU Y,OLOFSSON U. Mapping the friction between railway wheels and rails focusing on environmental conditions[J]. Wear,2015,324-325:122-128.
[18] CHEN H,ISHIDA M,NAMURA A,et al. Estimation of wheel/rail adhesion coefficient under wet condition with measured boundary friction coefficient and real contact area[J]. Wear,2011,271(1-2):32-39.
[19] WANG W J,LIU T F,WANG H Y,et al. Influence of friction modifiers on improving adhesion and surface damage of wheel/rail under low adhesion conditions[J]. Tribology International,2014,75:16-23.
[20] 申鹏,王文健,张鸿斐,等. 撒砂对轮轨粘着特性的影响[J]. 机械工程学报,2010,46(16):74-78 SHEN Peng,WANG Wenjian,ZHANG Hongfei,et al. Effect of spraying sand on adhesion characteristic of wheel/rail[J]. Journal of Mechanical Engineering,2010,46(16):74-78.
[21] GELINCK ERM. Mixed lubrication of line contacts[D]. Enschede:University of Twente,1999. |