1.
Magnetic levitation track extension Longyanglu surrounding property will fall?
磁悬浮轨道延长龙阳路周边房价将会下跌?
2.
Real-Time Detecting and Processing of Track Long-Wave Irregularity of Meglev Railway;
磁悬浮轨道长波不平顺实时检测与处理
3.
Pretreatment and time-domain analysis of long-wave irregular data of maglev track
磁悬浮轨道长波不平顺测试数据的预处理及时域分析
4.
Analysis of Dynamic Response of the High-Speed Magnetic Levitation Railway Guideway Girder;
高速磁悬浮铁路轨道梁动力响应分析
5.
Beijing-Shanghai High-speed Railw ay:ETT,Maglev or Wheel/rail;
京沪高速轨道交通:让ETT平息轮轨与磁悬浮之争
6.
Calculation of Electromagnetic Forces of the Suspension Magnet Based on the F-shape Rolling Railway for Maglev Train
基于F型轨道轧制工艺下的磁悬浮列车悬浮电磁铁电磁力计算
7.
The rails of their Maglev train were made of about100 magnets.
他们所做的磁悬浮列车轨道采用了约100块磁铁。
8.
Research of the Reasonable Guideway Structure Style of High-Speed Magnetic Levitation Railway;
高速磁悬浮铁路轨道梁的合理结构型式研究
9.
Self-adaptive Control of Magnetic Suspension Train Track Gap Control System
磁悬浮列车轨道间隙控制系统的自适应控制
10.
high-speed rail technology; train is suspended on a magnetic cushion above a magnetized track and so travels free of friction.
高速火车的技术;火车在磁化轨道上悬浮并高速运行。
11.
Research on PM DMS Conducting Sheet Maglev Guideways Construction;
永磁电动式导体板磁悬浮列车轨道结构及相关研究
12.
Study of Levitation Force Charactericstics of High-T_c Superconductor Bulk over Permanent Magnetic Guideways by Experiment and Simulation
永磁轨道上方高温超导块材磁悬浮实验与仿真研究
13.
Maglev Charactericstics of HTS YBCO Bulk Above Permanent Magnet Guideway under External Disturbances
外部扰动条件下高温超导YBCO块材在永磁轨道上的磁悬浮性能
14.
With the magnetic levitation technology the stage is suspended on the X&Y rails which are made of granite and SiC. There are no friction and wear abrasion on the rails.
利用磁悬浮技术将工作台悬浮在X、Y导轨上 ,消除了导轨的摩擦和磨损 ;
15.
Study on Profile Technical Standards of Urban Rail Maglev Transit System;
城轨磁悬浮交通线路纵断面技术条件研究
16.
City Axle Magnetic Suspension Planar Technique Condition Research;
城轨磁悬浮交通线路平面技术条件研究
17.
Exploration on Superspeed Touching Wide Air Cushion Clip Orbit Electric Car;
对超高速接触式宽气垫悬浮卡轨电车的探索
18.
Study on Floating Slab Track upon Vibration-noise Controls in Viaduct Rail Transit System;
高架轨道交通浮置板轨道减振降噪性能研究