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客运专线土质路基地段铺设无碴轨道调研及分析 总被引:6,自引:0,他引:6
介绍无碴轨道的特点,高速铁路发达国家以及国内研究、应用现状及土质路基地段铺设无碴轨道的技术条件;结合现行客运专线有碴轨道设计规范的有关规定,初步提出客运专线土质路基地段铺设无碴轨道的技术条件,就需深入研究的问题进行了讨论。 相似文献
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本文对几种不同牵引装置的B_0B_0B_0机车在牵引工况中的轴重转移进行计算分析,从而推导出其设计参数的相关函数式和机车最佳粘着性能的参数匹配方法。此外,还论述改善B_0B_0B_0机车动态粘着性能的设计措施,并进行实例论析。 相似文献
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《Vehicle System Dynamics: International Journal of Vehicle Mechanics and Mobility》2012,50(8):1321-1338
In order to study the dynamic behaviours of locomotives under saturated adhesion, the stability and characteristics of stick–slip vibration are analysed using the concepts of mean and dynamic slip rates. The longitudinal vibration phenomenon of the wheelset when stick–slip occurs is put forward and its formation mechanism is made clear innovatively. The stick–slip vibration is a dynamic process between the stick and the slip states. The decreasing of mean and dynamic slip rates is conducive to its stability, which depends on the W/R adhesion damping. The torsion vibration of the driving system and the longitudinal vibration of the wheelset are coupled through the longitudinal tangential force when the wheelset alternates between the stick and the slip states. The longitudinal oscillation frequencies of the wheelset are integral multiples of the natural frequency of torsion vibration of the driving system. A train dynamic model integrated with an electromechanical and a control system is established to simulate the stick–slip vibration phenomenon under saturated adhesion to verify the theoretical analysis. The results show that increases of the longitudinal axle guidance stiffness and the motor suspension stiffness are beneficial to the stick–slip vibration stability and the locomotive's traction ability. The optimised matching of the longitudinal axle guidance stiffness and the motor suspension stiffness are helpful to avoid longitudinal resonance when the stick–slip vibration occurs. 相似文献
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《Vehicle System Dynamics: International Journal of Vehicle Mechanics and Mobility》2012,50(10):1270-1287
A 3-D explicit finite element model is developed to investigate the transient wheel–rail rolling contact in the presence of rail contamination or short low adhesion zones (LAZs). A transient analysis is required because the wheel passes by a short LAZ very quickly, especially at high speeds. A surface-to-surface contact algorithm (by the penalty method) is employed to solve the frictional rolling contact between the wheel and the rail meshed by solid elements. The LAZ is simulated by a varying coefficient of friction along the rail. Different traction efforts and action of the traction control system triggered by the LAZ are simulated by applying a time-dependent driving torque to the wheel axle. Structural flexibilities of the vehicle–track system are considered properly. Analysis focuses on the contact forces, creepage, contact stresses and the derived frictional work and plastic deformation. It is found that the longitudinal contact force and the maximum surface shear stress in the contact patch become obviously lower in the LAZ and much higher as the wheel re-enters the dry rail section. Consequently, a higher wear rate and larger plastic flow are expected at the location where the dry contact starts to be rebuilt. In other words, contact surface damages such as wheel flats and rail burns may come into being because of the LAZ. Length of the LAZ, the traction level, etc. are varied. The results also show that local contact surface damages may still occur as the traction control system acts. 相似文献
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分析驾驶员在冰雪条件下的驾驶行为特性,建立考虑驾驶员行为特性的跟驰模型,有助于丰富现有交通流理论.通过招募驾驶员开展实车跟驰试验,对比分析正常条件与冰雪条件下的驾驶行为差异.进而基于任务难度均衡理论构建包含人类因素参数的任务难度模块,引入改进后的智能驾驶员模型,并采用车辆轨迹数据对模型进行标定和有效性验证.研究表明:驾驶员在跟驰行驶过程中受外界刺激及自身驾驶能力影响时会对车辆行驶状态进行动态调整,试图保持期望间距,且速度与前车一致的状态;冰雪条件下驾驶员采取风险补偿行为,其车头时距波动幅度较正常条件收窄,模型引入人类因素参数可以较好地描述其差异性. 模型有效性验证表明,新模型在6个仿真场景中的表现都优于传统智能驾驶员模型,且表现出更好的鲁棒性.研究结果可为冰雪条件下的交通管理措施制定提供理论支持. 相似文献