Volume 25 Issue 1
Feb.  2025
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Article Navigation >  Journal of Traffic and Transportation Engineering  > 2025  >  25(1): 107-120
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ZHANG Zhi-chao, ZHANG Yi-zhe, CHU Gao-feng, CUN Dong-dong, ZU Hong-lin, LYU Kai-kai. Safety adaptability test and calculation of tail push-type operation of power car[J]. Journal of Traffic and Transportation Engineering, 2025, 25(1): 107-120. doi: 10.19818/j.cnki.1671-1637.2025.01.007
Citation: ZHANG Zhi-chao, ZHANG Yi-zhe, CHU Gao-feng, CUN Dong-dong, ZU Hong-lin, LYU Kai-kai. Safety adaptability test and calculation of tail push-type operation of power car[J]. Journal of Traffic and Transportation Engineering, 2025, 25(1): 107-120. doi: 10.19818/j.cnki.1671-1637.2025.01.007
shu

Safety adaptability test and calculation of tail push-type operation of power car

doi: 10.19818/j.cnki.1671-1637.2025.01.007
  • 1.

    Locomotive and Car Research Institute, China Academy of Railway Sciences Corporation Limited, Beijing 100081, China

  • 2.

    National Key Laboratory of EMU and Locomotive Traction and Control, China Academy of Railway Sciences Corporation Limited, Beijing 100081, China

Funds:

Science and Technology Research and Development Program of China State Railway Group Co., Ltd. N2021J027

Research Project of China Academy of Railway Sciences Corporation Limited 2022YJ262

Research Project of China Academy of Railway Sciences Corporation Limited 2024YJ042

More Information
  • Corresponding author: ZHANG Yi-zhe(1987-), male, associate professor, PhD, zyzcars@163.com
  • Received Date: 2023-10-08
  • Publish Date: 2025-02-25
    Abstract
  • The safety adaptability of power concentrated EMUs under the tail push-type operation of power car was systematically explored with a combination of test and simulation calculation. A dynamics performance test was conducted for the tail push-type operation of power car to analyze its safety adaptability on conditions such as the straight line, and curve of 300 m radius. A 12-settings system dynamics model was constructed by multi-body dynamics and substructure methods, including a tail power car, two adjacent trailers, and a 3D dynamics model of tight-lock coupler. The dynamics model was fully revised and validated by the test data. The simulations for more dangerous cases were carried out to analyze the safety of such a power car tail push-type operation. The safety adaptability of this operation on different lines was discussed. Research results show that under the curve condition of 300 m radius, the simulation calculation is basically consistent with experimental results. The pushing force of coupler has a small impact on the safety of tail power car operation. Due to the longitudinal creep of the wheel rail, the safety index of tail power car operation decreases under larger pushing force, while the one of adjacent trailers is relatively significantly affected by the pushing force. During the lateral pushing of tail power roof through the No.12 and No.9 turnout, the safety indicators of power car and its adjacent trailer increase with the rise of the pushing force of coupler. When the power car plays the pushing force of 100% and passes through the No.9 turnout laterally, the wheel load reduction rate and the lateral force of the wheel axle will exceed the limit. Therefore, the coupler pushing force of the power car passing through the turnout laterally should be minimized as much as possible.

     

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