磁浮交通

考虑墩体参振的高速磁浮交通轨道梁动力特性研究

Study on Dynamic Characteristics of High-Speed Maglev Guideway Considering Pier Vibration

上海中低速磁浮交通车辆的数字化研发

Digital Design for Low and Medium Speed Urban Maglev Vehicle in Shanghai

车轨耦合振动问题制约了磁浮交通技术的进一步发展。

The vehicle-guideway-coupled vibration limits the development of maglev train .

高速常导磁浮交通轨道结构的主要技术特征

The Key Technology of Guideway Structure of High speed EMS Maglev Railway

网运分离/干支分离模式下磁浮交通项目财务评价影响研究

Financial Assessment for Net-transportation Separation and Trunk-lateral Separation in the Maglev Project

关于积极发展我国磁浮交通的建议

Suggestion for actively developing Maglev transportation system in China

磁浮交通系统作为一种新型交通形式，具有巨大发展潜力。

As a new transportation form , maglev transportation has huge development potential .

高速磁浮交通线路平竖曲线主要技术参数研究

Research on Alignment Parameters of High-speed Maglev Railway Route

轨道梁是高速磁浮交通系统的主要组成部分。

Maglev guideway is the main part of high speed maglev transportation system .

高速磁浮交通系统营运模式研究

Research on Operation Mode of High-speed Maglev Transportation System

磁浮交通中央控制系统的安全操作与显示技术研究与实现

Safe Operation and Display Technique Research and Implementation of Centralized Control System in Maglev Transportation

磁浮交通是一种与轨道无机械接触的新兴交通技术。

Maglev has a new technology , without mechanical touch with the track in traffic .

直线感应电机牵引系统的仿真及磁浮交通中电磁力的计算

Simulation of Linear Induction Motor Traction System and Calculation of Electromagnetism Force in Maglev Vehicles

上海示范线的成功运营预示着高速磁浮交通系统普及的必然性。

The successful operation of high-speed Maglev Train in Shanghai indicates inevitability of universal application .

高速磁浮交通技术研究已经被列为国家十五863计划重大专项。

High-speed Maglev transportation technology has been listed as major projects of Tenth Five-Year 863 Plan .

沪杭磁浮交通工程项目收益分析

Revenue of Shanghai-Hangzhou Maglev Project

积极推进新型磁浮交通的发展，开拓长大干线与城市交通两方面的实用化与产业化。

To actively promote the development of the maglev transportation both for the long distance line and intercity application .

以上海浦东高速磁浮交通示范线为背景，对6种工况下道岔箱梁跨中截面、支承截面等进行了动力响应原位实测，采集道岔的加速度响应。

Through field work , the dynamic response of mid-span and support cross section under six operating modes was researched .

因此，对运行控制系统的故障诊断技术进行研究对保证磁浮交通运输系统的可靠持续运行具有十分重要的意义。

Therefore , the study on the technology of OCS fault diagnosis is very important to maintain the stability of maglev train transportation system .

本文从开拓应用、推进产业化与加强技术的研究发展等方面提出了在我国积极发展磁浮交通的有关建议。

The present paper provides some suggestions for active development of maglev transportation in China , including its application , industrialization , research and development .

论文根据磁浮交通道岔梁的结构及受力特点，通过建立合理的瞬态动力学数值模型，把列车作为高速运行的荷载动态作用于道岔梁上。

Based on the analysis of the large-scale steel box beam 's load and its structure form , a reasonable transient calculative model was found in this paper .

高速磁浮交通系统是一种依靠电磁力实现车辆无接触运行的新型有轨交通系统，具有广阔的发展前景。

The high speed magnetically suspended transportation system is a kind of new rail system on which a train is going without touching the rail by means of electromagnetic force .

在高速轨道交通领域，尤其是高速磁浮交通系统中，列车与地面之间高效可靠的通信系统是保证列车安全运行的关键所在。

In the high-speed rail transportation , especially high-speed maglev transportation system , a reliable and efficient train-ground communication system is the key that ensure the safety of train operation .

介绍并分析了磁浮交通运行控制系统中通信子系统的功能及网络构成，就如何对关键技术进行国产化进行了研究。

The article introduces and analyzes functions and network composition of the communication subsystem in the maglev traffic operation control system , and makes some researches on the localization of the key techniques .

磁悬浮控制系统是整个磁浮交通系统的核心，悬浮传感器是悬浮控制系统的状态感知来源，悬浮传感器所采集数据的正确性直接影响悬浮的稳定性。

Suspension control system is the kernel of the maglev vehicle system , and the sensors measure states of the suspension control system . Validity of the data from the sensors affects the stability of suspension directly .

其次，应用各方案效用函数值的数学模型，分析各种交通工具的适用范围；计算出不同情况下磁浮交通系统的市场份额。

Secondly , this thesis applied the math - model of the avail function value to analyze the application range of each one , and worked out the market shares of the maglev transportation system in each distinct condition .

随着磁浮交通的发展，为满足跨越河流和城市主干道的需要，轨道梁的跨度必须进一步增大，德国经验公式难以满足开发新型轨道梁的需要。

With the development of maglev transportation system it is demanded to increase the guideway span to cross rivers and main roads in city and it will be harder to adopt the German formula as the basis in design .

运行控制系统在整个磁浮交通运输系统中起着对列车进行自动控制及安全防护的核心作用，是保证列车安全运行的关键装备。

In maglev train transportation system , Operation Control System ( OCS ) plays a core role of automatic control and safety protection on the train , and it is a key equipment to ensure that the train operates safely .

针对磁浮轨道交通受电靴滑块的使用性能要求，用粉末冶金法制备了铜石墨材料。

Aimed at using property require of maglev , a type of copper-graphite collector shoe material was prepared by means of the powder metallurgy method .

高速磁浮列车是未来交通的重要发展方向之一。

High-speed Maglev train traffic system is one of the important development directions in the future .