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311.
桥上CRTSⅡ型板式无砟轨道底座张拉纵连模拟分析 总被引:2,自引:2,他引:0
《铁道标准设计通讯》2014,(9):44-48
根据桥上CRTSⅡ型板式无砟轨道结构特点,建立桥上CRTSⅡ型板式无砟轨道底座施工全过程的有限元计算模型,分6个施工步骤分析底座从浇筑、张拉再到锁定整个过程中的受力及变形,研究表明:张拉前需确定底座锁定板温,以控制底座温度变化幅度;张拉时整个断面需均匀张拉,避免出现因应力集中而导致混凝土拉裂,当底座温差较大时,必须每隔24 h重复张拉1次,直到达到最终的张拉量;张拉完成后,BL2后浇带必须待混凝土浇筑段内应力均衡后方能浇筑。 相似文献
312.
通过6个案例分析,从不同调试故障的处理方法,归纳出3类常见调试问题,进而提出分3步进行的送电调试,为快速、高效地完成通风小系统风机送电调试任务提供了一条可行的便利途径。 相似文献
313.
314.
相邻墩高差对无砟轨道结构不平顺的影响研究 总被引:2,自引:2,他引:0
《铁道标准设计通讯》2015,(9):22-25
针对新建客运专线验收时相邻桥墩高差较大的桥上轨道结构不平顺超限现象,基于有限元分析方法结合实际桥梁工点情况,对简支梁、连续梁及连续刚构典型桥梁工点分别建立有限元分析模型,研究相邻墩高差温度效应对无砟轨道平顺性的影响;相邻墩高差温度效应对轨道10 m弦长不平顺影响很小,对轨道48a弦长不平顺有较大影响,与轨道结构既有不平顺叠加可能超限;轨道480a弦长不平顺的直接影响因素是最高桥墩的高度,与相邻墩高差没有必然关系。 相似文献
315.
《铁道标准设计通讯》2016,(8)
新建哈尔滨-大连高速铁路跨越长春市富民大街设计采用138m钢箱叠拱,为国内首次采用的新型拱桥结构,是目前国际上同类桥梁中的跨度最大、位于严寒地区的桥梁,也是国内第一座应用实体圆钢吊杆铁路桥梁,对该桥应用中的关键技术实体圆钢吊杆的连接及低温疲劳特性、拱脚的合理构造及局部应力、对无砟轨道适应性、车桥耦合动力效应等进行了系统计算分析和试验研究,其研究成果已应用于新开河特大桥中,详细介绍桥式方案及在高速铁路应用中的关键技术研究成果。 相似文献
316.
鉴于信号图形信息化档案管理系统已经成为电务段履历簿管理的常用工具,使用中可能会遇到一些问题。现介绍双线轨道电路图的制作要求及电缆径路图的制作方法,讨论关键制图环节的处理方法,供大家参考。 相似文献
317.
《Vehicle System Dynamics: International Journal of Vehicle Mechanics and Mobility》2012,50(11):1061-1082
The dynamic model was developed to evaluate vibration accelerations and ride comforts during the running of the Korean-standardised rubber-tired light rail vehicle. Ride comfort indexes were analysed and tested in accordance with UIC 513R by using the dynamic model and the actual vehicle in the test track. Based on the comparisons between analysis results and test results, the validity of the developed dynamic model was evaluated. It was verified whether or not the developed Korean-standardised rubber-tired light rail vehicle met the specified target specification on ride comfort. In addition, the influence of the wearing of guide wheels on ride comfort was estimated. 相似文献
318.
针对列控中心(TCC)控制的区间方向电路存在的一致性问题,通过采用故障预防、故障控制的方法,对区间方向电路形成闭环的检查,确保区间方向的一致性,在不降低安全性的前提下,提高区间方向电路可用性,减少对铁路运输的影响。 相似文献
319.
《Vehicle System Dynamics: International Journal of Vehicle Mechanics and Mobility》2012,50(3):362-389
A vertical vehicle–track coupled dynamic model, consisting of a high-speed train on a continuously supported rail, is established in the frequency-domain. The solution is obtained efficiently by use of the Green's function method, which can determine the vibration response over a wide range of frequency without any limitations due to modal truncation. Moreover, real track irregularity spectra can be used conveniently as input. The effect of the flexibility of both track and car body on the entire vehicle–track coupled dynamic response is investigated. A multi-body model of a vehicle with either rigid or flexible car body is defined running on three kinds of track: a rigid rail, a track stiffness model and a Timoshenko beam model. The results show that neglecting the track flexibility leads to an overestimation of both the contact force and the whole vehicle vibration response. The car body flexibility affects the ride quality of the vehicle and the coupling through the track and can be significant in certain frequency ranges. Finally, the effect of railpad and ballast stiffness on the vehicle–track coupled vibration is analysed, indicating that the stiffness of the railpad has an influence on the system in a higher frequency range than the ballast. 相似文献
320.
《Vehicle System Dynamics: International Journal of Vehicle Mechanics and Mobility》2012,50(12):1902-1917
The sleeper-passing impact has always been considered negligible in normal conditions, while the experimental data obtained from a High-speed train in a cold weather expressed significant sleeper-passing impacts on the axle box, bogie frame and car body. Therefore, in this study, a vertical coupled vehicle/track dynamic model was developed to investigate the sleeper-passing impacts and its effects on the dynamic performance of the high-speed train. In the model, the dynamic model of vehicle is established with 10 degrees of freedom. The track model is formulated with two rails supported on the discrete supports through the finite element method. The contact forces between the wheel and rail are estimated using the non-linear Hertz contact theory. The parametric studies are conducted to analyse effects of both the vehicle speeds and the discrete support stiffness on the sleeper-passing impacts. The results show that the sleeper-passing impacts become extremely significant with the increased support stiffness of track, especially when the frequencies of sleeper-passing impacts approach to the resonance frequencies of wheel/track system. The damping of primary suspension can effectively lower the magnitude of impacts in the resonance speed ranges, but has little effect on other speed ranges. Finally, a more comprehensively coupled vehicle/track dynamic model integrating with a flexible wheel set is developed to discuss the sleeper-passing-induced flexible vibration of wheel set. 相似文献