长春轻轨3号线东延线过渡段信号改造方案分析

轨道交通延伸线工程的接合处车站改造方案是影响整个工程实施的关键因素。针对长春轻轨3号线东延线过渡段2个车站信号系统的改造,详细探讨和分析信号设备变动和施工量,提出整体改造可行性方案,从工程实施难度和风险、节省投资等多个角度进行了比选。     

深圳地铁3号线列乍牵引系统通信故障分析及改进

通过对深圳地铁3号线牵引系统通信故障发生的时间以及故障发生当日的气温等信息的统计,初步确定故障源,采用现场与实验室试验相结合的方法,确定故障发生的具体原因,进而提出改进措施,收到良好效果。     

养生作用对硫沥青性能影响分析

硫磺部分替代传统石油沥青用于道路工程建设可减少石油沥青用量,降低施工能源消耗,促进工业废渣中硫磺的回收利用,具有较高的经济和环保价值。为探究硫磺掺量（质量分数）及养生作用对硫沥青（SEA）性能的影响,采用差示扫描量热仪（DSC）验证硫沥青中硫磺的重结晶现象,对养生前后硫沥青的基本物理性能和黏度进行分析,并采用动态剪切流变仪（DSR）和弯曲梁流变仪（BBR）对养生前后硫沥青的流变特性和疲劳性能进行评价,最后借助荧光显微镜（FM）观察养生前、后硫磺在沥青中的微观分布特性。研究结果表明：养生后高硫磺掺量的硫沥青DSC曲线出现吸热峰,硫沥青（特别是高硫磺掺量下）的劲度有所增加,因此对硫沥青进行养生使其性能稳定后再进行相关性能评价更具现实意义;硫磺掺量较低（≤ 10%）时,硫磺主要以溶解硫的形式存在于沥青中起到软化沥青的作用,因此沥青的低温变形能力有所改善,但其高温抗变形能力有所降低;当硫磺掺量较高（≥ 35%）时,硫磺主要以重结晶的形式悬浮在沥青中使沥青变硬,在增加沥青高温抗变形能力的同时也牺牲了其低温抗裂能力;硫磺掺量较低时,硫沥青黏度随着硫磺掺量的增加而降低;硫磺掺量较高时,硫沥青90℃和105℃黏度随着硫磺掺量的增加而增加,但硫沥青120℃和135℃黏度相差不大,同时硫磺加入最高可降低沥青的施工温度达20℃;线性振幅扫描（LAS）试验结果表明,养生后的硫沥青疲劳寿命比基质沥青长,其中35%硫沥青疲劳性能最佳;硫磺掺量进一步增加,硫沥青疲劳寿命缩短至与基质沥青相近;FM分析表明,硫磺掺量不高于5%时,硫磺全部溶解于沥青中,且养生后硫磺未重结晶,相应硫沥青无荧光性;硫磺掺量高于5%时,硫磺在沥青中分布均匀,养生后10%硫沥青中硫晶斑尺寸和面积显著增大,高硫磺掺量硫沥青中硫晶斑面积仅略有增加。     

基于PLC控制的船用蓄电池充电装置设计

为减轻船用蓄电池充电时的劳动强度,降低充电操控复杂程度,提高对蓄电池充电的自动化和智能化水平,本文设计了PLC控制的船用大电流蓄电池充电装置,介绍了该装置的系统结构及其软硬件设计.整个充电过程,基本实现了自动控制,并能有效实现充电过程中过压、过流等报警提示、故障跳闸保护等.充电过程监测界面简洁直观,操作灵活方便.     

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.     

电加热道岔融雪系统

RD1型电加热道岔融雪系统由远程控制中心、车站控制终端、融雪控制柜和加热装置4部分组成。该系统具有远程监视、远程控制、故障报警、数据管理等主要功能,通过对人身和轨道电路的安全保障设计与节能设计,提高系统的优越性。     

增压器常见故障原因分析

本文通过分析增压器常见故障的原因,提出实际工作中各种故障的判断方法和应采取的处理方法。     

南京地铁1号线国产闸瓦试验研究

目前,国内绝大部分地铁列车采用价格高昂的进口合成闸瓦,在很大程度上影响列车运营维护成本。介绍了南京地铁1号线国产闸瓦研发和试验情况。在进行试验台试验、试车线试验、小批量与整列车制动性能试验基础上,通过性能对比,国产闸瓦的各项性能指标已经达到和超过了进口闸瓦,满足地铁车辆制动性能要求,表明国产闸瓦已经具备替代进口闸瓦条件。     

简论南京地铁新车调试

地铁建设是一项系统工程,综合性强,技术复杂,各子系统接口多。近年来,在地铁建设过程中新车调试作为一个独立环节,越来越受到国内外一些地铁公司的高度重视。新车的调试成功为系统总联调和大系统的顺利运转,提供了坚实的基础,车辆调试工作在地铁运营建设中占有极其重要的地位,总结新车调试的具体内容及其关键项,并提出一些建议,希望对以后的车辆调试工作提供借鉴与帮助。