CAN现场总线系统设计技术及实现

CAN（Controller Area Network控制器局域网）总线是为实现汽车测量和执行部件之间的数据通信而设计的一种现场总线,使用“载波监测,多主掌控、冲突避免”（CSMA/CA）的通信模式。在系统介绍CAN总线的发展及特点基础上,以SJA1000为例,结合CAN协议提出一种通用型CAN总线的开发与设计方法。     

电力机车DC600V供电系统的改进

为适应“4·18”提速需要,对电力机车DC600V供电系统进行冗余改造,加装车载故障诊断和远程监控系统。新装置统一了列车供电接地方式,提高了可靠性,实现了信息化,改善了维修性能,现场应用证明效果良好。     

16V240ZJ型柴油机机体裂纹的技术分析及其对策

根据16V240ZJ型柴油机机体隔板裂纹故障现象,总结了运用中故障处所的判定方法,依据具体裂纹的数据统计和分析,提出了消除裂纹的对策。     

上海龙腾大道淀浦河桥主桥设计

介绍了龙腾大道(罗秀东路~徐浦大桥)道路工程淀浦河桥主桥概况、结构设计、结构体系以及桥梁特色。淀浦河桥主桥采用连续V构+挂孔梁体系,桥跨布置为20 m+30 m+35 m+48 m+108 m+48 m+35 m+20 m,主梁、V墩采用钢结构,钢筋混凝土矩形承台,钢管桩基础。     

白铜在两种海洋优势细菌环境中的腐蚀行为研究

利用间歇式方法培养硫酸盐还原菌和需那弧菌,并采用自腐蚀电位、极化曲线、冷场扫描电镜观察等方法,研究了白铜在海洋优势菌种硫酸盐还原菌和需钠弧菌共同作用下的腐蚀电化学行为。结果表明：海洋微生物的存在加速了白铜的腐蚀进程;硫酸盐还原菌在混合菌种培养基中对白铜的腐蚀起主导作用;硫酸盐还原菌和需钠弧菌共同作用下基体表面团聚现象严重,倾向于发生点蚀;微生物对基体腐蚀影响严重程度依次为：硫酸盐还原菌、混合菌、需钠弧菌、无菌。     

基于CATIA V6的某液化气船货舱区结构建模模板研究

在采用MarkIII货物维护系统的超大型乙烷运输船（VLEC）的结构设计中，基于CATIA V6对货舱区建模模板进行研究，后续的相似船型可直接通过调用建模模板来实现快速构建货舱区结构模型，而以此建模模板为基础的结构模型可在建模后期通过修改预设的参数而进行快速变换，从而与其相关联的其他结构（如横向构件等）可自动进行更新。建模模板的研究可提高CATIA V6中结构建模的效率，也为规范结构建模策略提供参考。     

K3V型柱塞泵的结构、控制原理及维修

对广泛应用于大宇挖掘机上的K3V型轴向变量柱塞泵的结构及控制原理进行了论述，分析了常见故障的原因，给出了常见故障的排除方法及易损件的维修标准。     

青藏客车车下DC 600 V/AC 380 V逆变器故障原因分析及改进建议

分析了青藏客车车下DC 600 V/AC 380 V逆变器的故障原因,并提出了相应的改进建议。     

V/X接线牵引变压器温升与寿命损失研究

V/X接线牵引变压器在高速铁路牵引供电系统中有着广泛的运用,本文根据IEC354标准温升模型中变压器各部分温升的计算公式,对V/X接线牵引变压器的温升和寿命损失做了深入的研究,分析了影响牵引变压器温升和寿命损失的因素,并对牵引变压器的容量合理优化提出了建议.     

Assessing the Potential Impacts of Connected Vehicles: Mobility,Environmental, and Safety Perspectives

The connected vehicle is a rapidly emerging paradigm aimed at deploying and developing a fully connected transportation system that enables data exchange among vehicles, infrastructure, and mobile devices to improve mobility, enhance safety, and reduce the adverse environmental impacts of the transportation systems. This study focuses on micromodeling and quantitatively assessing the potential impacts of the connected vehicle (CV) on mobility, safety, and the environment. To assess the benefits of CVs, a modeling framework is developed based on traffic microsimulation for a real network located in the city of Toronto, Canada, to mimic communication between enabled vehicles. In this study, we examine the effects of providing real-time routing guidance and advisory warning messages to CVs. In addition, to take into account the rerouting in nonconnected vehicles (non-CVs) in response to varying sources of information such as apps, global positioning systems (GPS), variable message signs (VMS), or simply seeing the traffic back up, the impact of fraction of non-CV vehicles was also considered and evaluated. Therefore, vehicles in this model are divided into; uninformed/unfamiliar not connected (non-CV), informed/familiar but not connected (non-CV) that get updates infrequently every 5 minutes or so (non-CV), and connected vehicles that receive information more frequently (CV). The results demonstrate the potential of connected vehicles to improve mobility, enhance safety, and reduce greenhouse gas emissions (GHGs) at the network-wide level. The results also show quantitatively how the market penetration of connected vehicles proportionally affects the performance of the traffic network. While the presented results are pertinent to the specifics of the road network modeled and cannot be generalized, the quantitative figures provide researchers and practitioners with ideas of what to expect from vehicle connectivity concerning mobility, safety, and environmental improvements.