轮径差对机车动力学性能及轮轨接触的影响  被引量:10

Influence of Wheel Diameter Difference on the Locomotive Dynamic Performance and Wheel Rail Contact

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作  者:刘思莹[1] 徐永绥[1] 张军 马贺[1] 孙传喜[1] 

机构地区:[1]大连交通大学交通运输工程学院,大连116028 [2]北京建筑大学机电与车辆工程学院,北京100044

出  处:《科学技术与工程》2017年第28期125-130,共6页Science Technology and Engineering

基  金:辽宁省自然科学基金指导计划(201602132)资助

摘  要:机车同轴左右车轮存在直径不一致的情况,改变了轮轨的接触状态。针对机车同轴轮径差的问题,建立了机车动力学仿真模型和轮轨接触三维弹塑性有限元模型。通过动力学仿真计算和动载荷作用下弹塑性接触计算,分析同轴轮径差对机车运行性能的影响。结果表明:由于同轴轮径差的存在,轮轨间的动载荷发生变化。当内侧车轮直径小于外侧车轮直径时,在一定程度上有利于机车曲线通过;反之则会降低曲线通过性能。与无轮径差相比,同轴轮径差存在时,车轮与钢轨接触位置发生改变,等效应力增大,导致磨耗增加,降低车轮和钢轨的使用寿命。The diameter of tlie locomotive coaxial left and right wheels is inconsistent, which causes the wheel-rail contact state changing. A i ming at the problem of locomotive coaxial wheel diameter difference,the dynamicsimulation models of the locomotive and the three-dimensional elastic-plastic finite element models of wheel-railcontact are established. Based on the calculation of tlie dynamic simulation and the elastoplastic contact calculationunder dynamic load, the influence of tlie coaxial wheel diameter deference on the locomotive is analyzed. The conclusions are as follows, because of tlie coaxial wheel diameter deference, the dynamic load be-tween wheel and rail changes. When the diameter of the inner wheel is smaller than the diameter of the outer o n e, it is conducive to the locomotive through the c u r e in a certain degree. O n the contrary, ,has bad effects on curve passing performance. The wheel-rail contact position changes compared with no wheel diameter difference, and the equivalent stress of the rail increases,which could result in increasing wear and reduciwheel and rail.

关 键 词:机车轮对 轮径差 动力学 轮轨接触 运行性能 

分 类 号:U264.8[机械工程—车辆工程]

 

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