车载控制器设备故障处理浅析及维护建议

结合北京地铁4号线和大兴线现场系统调试、维护工作经验,详细介绍了CBTC系统中的VOBC系统构成及工作原理,并对常见VOBC系统故障原因进行了具体分析。     

基于柔性杆理论的脐带缆涡激振动数值模拟系统

针对目前海洋脐带缆分析软件缺乏的状况,本文基于MATLAB开发了脐带缆涡激振动数值模拟系统UCVIV-1.0.由于脐带缆的大变形和大转角会产生显著的几何非线性,脐带缆的静态平衡位形和整体力学响应计算采用了细长柔性杆模型,采用尾流振子模型模拟海流作用下的涡激力.该系统界面清晰友好,操作简单,适用于悬链线型脐带缆.选取了一组脐带缆参数,使用该系统进行了静力计算以及涡激振动计算;并将静力结果与采用国外商业软件OrcaFlex计算的结果进行了比对,发现结果吻合程度较高,在一定程度上验证了系统的可行性和准确性.本系统有望为脐带缆设计软件的开发提供借鉴.     

基于热-机耦合的柴油机气缸套强度研究

为使气缸套的结构设计、制造、强度校核及疲劳寿命分析更加精确化,利用有限元仿真软件,对某型柴油机气缸套在热负荷、机械应力作用下的应力及变形情况分别进行单边界条件计算和热-机顺序耦合计算,并做疲劳分析。结果表明,热-机械顺序耦合下气缸套的最大应力分布于气缸套内表面与上表面交界处,最大值不超过材料的极限应力;气缸套的最小疲劳安全系数满足设计要求,最有可能发生疲劳破坏的部位位于气缸套上部螺栓孔根部所处的高度平面、水套最底面所处平面及气缸套上表面外沿处。     

OCIMF MEG4新要求对油船系泊设计影响浅析

石油公司国际海事论坛最新发布的《系泊设备指南(第四版)》,对系泊设备布置和船对船设备布置提出了新的要求。该文通过对相关新要求的梳理解读,并结合设计实例,分析了新要求对油船系泊设计的主要影响,相关研究内容可供后续类似船舶设计参考。     

城际轨道交通车辆空调通风系统的数值仿真研究

基于某型号城际轨道交通车辆头车建立客室及空调通风系统风道的三维几何模型,采用多面体网格离散计算域和流量进出口边界,将SIMPLE算法与Realizable k-ε湍流模型相结合,进行送风道的仿真优化及试验验证,以完成客室空间三维全流场仿真计算。研究表明,合适开孔率的孔板通过调节孔板位置对调节送风均匀性效果显著。通过对客室空间气流组织分布以及典型截面压力场和温度场的仿真分析表明,头车客室空间内的流场及温度场分布整体较均匀,满足工程设计要求。     

Research on the Influence of Vertical Deformation of Bridge on the Track RegularityEI北大核心

Research purposes: The vertical deformation of high-speed railway (HSR) bridge will cause the track irregularity, which threatens the safe and efficient operation of the HSR. Taking the 32 m simple supported beam bridge as the research object, based on the existing mapping analytical model for bridge vertical deformation and rail geometry, the influence of the track regularity of the CRTS Ⅰ slab ballastless track structure caused by the key parameters such as the bridge vertical deformation amplitude, the hanging length of the beam end and the vertical stiffness of mortar layer were studied, and the corresponding measures to control the rail deformation were proposed, to provide theoretical reference for comprehensive treatment of rail deformation of HSR bridge. Research conclusions:(1) The pier settlement, the vertical rotation of the beam end and the beam fault will cause the rail to follow the beam deformation, and "up-warping" of the rail on the vertical deformation boundary will appear. (2) The rail deformation is directly proportional to the vertical deformation amplitude of the bridge and the key to control the rail deformation is to reduce the vertical deformation of the bridge. (3) The rail deformation can be controlled by reducing the hanging length of beam and vertical stiffness of mortar layer. (4) The research results can provide a theoretical reference for controlling the vertical rail deformation of high-speed railway bridges. © 2018, Editorial Department of Journal of Railway Engineering Society. All right reserved.     

The Reinforcement Analysis of Prestressed Anchor Frame Beam in the Deep Cutting Slope under Three Dimensional Strong EarthquakeEI北大核心

Research purposes: In order to further study the reinforcement of prestressed anchor frame beam in the deep cutting slope under three dimensional strong earthquake, a model of the deep cutting slope is built through FLAC 3D simulation software, the seismic wave to the model from three directions of x,y and z is input, and the dynamic response of the slope is analyzed. Then, the prestressed anchor frame beam reinforcement measures are applied to the model, and this paper analyzes the reinforcement effect of the prestressed anchor frame beam to the deep cutting slope under three dimensional strong earthquake. Research conclusions:(1) The prestressed anchor frame beam has a good effect on restraining the horizontal displacement of the deep cutting slope. (2) Under the three dimensional strong earthquake, the prestressed anchor frame beam has a good effect on the horizontal acceleration and horizontal velocity of the deep cutting slope, which reduces the peak of horizontal acceleration and horizontal velocity. (3) Through the comparison of the response before and after the reinforcement of the prestressed anchor frame beam is given under the 9 degrees three dimensional strong earthquake, it can be concluded that the prestressed anchor frame beam can provide good reinforcement effect to the deep cutting slope. (4) This research can be used for reference to the earthquake resistance of the slope engineering. © 2018, Editorial Department of Journal of Railway Engineering Society. All right reserved.     

曲线对高速货车转向架焊接部件疲劳损伤的影响

依据UIC510—3:1994规定的疲劳试验加载方法,基于有限元法研究了不同左右曲线变换次数取值时高速货车转向架焊接构架及摇枕疲劳关注部位累积损伤的变化程度及规律。仿真结果及综合分析表明,当左右曲线变换次数取值变化并不十分显著时,其对结构疲劳损伤影响很小,样机疲劳试验中可直接应用UIC规范中的建议值。     

JC型弹性旁承体安装时侧翼橡胶层应力分析

对目前货车转向架装用的JC型双作用弹性旁承体进行了非线性有限元计算,分析了旁承体两侧翼橡胶层在安装及工作时的应力,给出了JC型双作用弹性旁承体在安装时的相关建议。     

出口马达加斯加米轨转向架的研制

介绍了出口马达加斯加米轨转向架的主要技术参数、结构特点及有关计算和试验情况.