[1] ORLOVA A,BORONENKO Y. The influence of the condition of three-piece freight bogies on wheel flange wear:Simulation and operation monitoring[J]. Vehicle System Dynamics,2010,48:37-53. [2] REZVANL M A,OWHADI A,NIKSAI F. The effect of worn profile on wear progress of rail vehicle steel wheels over curved tracks[J]. Vehicle System Dynamics,2006,47(3):325-342. [3] VO K D,ZHU H T,TIEU A K. FE method to predict damage formation on curved track for various worn status of wheel/rail profiles[J]. Wear,2015,322-323:61-75. [4] WANG Ping,GAO Liang.Numerical simulation of wheel wear evolution for heavy haul railway[J]. Journal of Central South University,2015,22(1):196-207. [5] JIN Xuesong,WEN Zefeng,WANG Kaiyun,et al. Effect of passenger car curving on rail corrugation at a curved track[J]. Wear,2006,260:619-33. [6] 任朝阳. 小曲线半径对动车组轮对轮缘磨耗的影响及对策[J]. 高速铁路,2011(4):11-14. REN Chaoyang. Effect of small curve radius on wheel rim abrasion of EMU[J]. High-Speed Railway,2011(4):11-14. [7] 侯茂锐,王卫东,常崇义,等. 动车所小半径曲线钢轨磨耗及减磨措施研究[J]. 铁道学报,2018,40(3):45-50. HOU Maorui,WANG Weidong,CHANG Chongyi,et al. As study of rail wear on sharp curves in EMU maintenance depot[J]. Journal of Chinese Railway Society,2018,40(3):45-50. [8] LI Xia,YANG Tao,ZHANG Jian,et al. Rail wear on the curveof a heavy haul line:Numerical simulations and comparison with field measurements[J]. Wear,2016,366-367:131-138. [9] WANG Jianxi,CHEN Xi,LI Xiangguo,et al. Influence of heavy haul railway curve parameters on rail wear[J]. Engineering Failure Analysis,2015,57:511-520. [10] 朱锦煜. 曲线超高与外轨侧面磨耗关系的探讨[J]. 铁道建筑,1984(12):15-18. ZHU Jinyu. Dissussion on the relationship between cunve superelevation and outer raid side wear[J]. Railway Construction,1984(12):15-18. [11] 练松良. 改变超高对曲线钢轨侧磨的影响[J]. 铁道建筑,1990(1):5-8. LIAN Songliang. Effect of changing superelevation on side wear of curved rail[J]. Railway Construction,1990(1):5-8. [12] ZHOU Suxia,XUE Rui. Analysis of the influence of super-elevation of subway line act on wheel-rail wear[J]. Applied Mechanics and Materials,2014,577:135-139. [13] 杨新文,姚一鸣,周顺华,等. 基于修正的轮轨非Hertz接触的重载铁路曲线超高对钢轨磨耗的影响[J]. 机械工程学报,2018,54(4):23-29. YANG Xinwen,YAO Yiming,ZHOU Shunhua,et al. Influence of curve superelevation of heavy haul railway on rail wear based on revised wheel/rail non-hertz contact[J]. Journal of Mechanical Engineering,2018,54(4):23-29. [14] 李伟,马战国,司道林. 重载铁路曲线几何参数对钢轨磨耗影响的研究[J]. 铁道建筑,2013(6):130-134. LI Wei,MA Zhanguo,SI Daolin. Study on the influence of geometric parameters of heavy haul railway curve on rail wear[J]. Railway Construction,2013(6):130-134. [15] JENDEL T. Prediction of wheel profile wear-methodology and verification[J]. Wear,2002,253:89-99. [16] 罗仁,曾京,戴焕云.高速列车车轮磨耗预测仿真[J].摩擦学学报,2009,29(6):551-557. LUO Ren,ZENG Jing,DAI Huanyun. Simulation on wheel wear prediction of high-speed train[J]. Tribology,2009,29(6):551-557. [17] 姚建伟,孙丽霞. 机车车辆动力学[M]. 北京:科学出版社,2014. YAO Jianwei,SUN Lixia. Locomotive vehicle dynamics. Beijing:Science Editions,2014. [18] 段固敏.轮轨磨耗指数的分析[J]. 西北民族学院学报,1999,20(1):22-26. DUAN Gumin. Analysis on the wear index between the rail and the wheel[J]. Journal of Northewest Minorities University,1999,20(1):22-26. [19] NILSSON R. Wheel and rail wear-measured profile and hardness changes during 2. 5 years for Stockholm commuter traffic[J]. Railway Engineering,2000,102:229-236. |