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Experiment, Optimization, and Design of Electromagnetic Track Brake for High-Speed Railways System

Author

Listed:
  • Chun Xiang
  • Jun-Cheng Wang
  • Yu-Feng Gu
  • Shi-Jin Zhang
  • Shi-An Chen

Abstract

To enhance braking force and control convenience of high-speed railway systems, this paper proposes a new electromagnetic track brake, and the corresponding design, optimization, and experimental test are implemented. The proposed track brake is longitudinal-axis magnetic circuits excited by multiple coils electromagnets, and the pole shoes are extending outward. A preliminary design of an electromagnetic track brake is developed, including iron core height, iron core width, iron core gap, excitation ampere-turn, coil arrangement form, coil thickness, and preliminary height of single-layer coil. The electromagnet number and pole shoe gap are optimized through three-dimensional electromagnetic simulation comparisons. The final design of the electromagnetic track brake is determined, including iron core length, copper wire diameter, coil turn, and final height of single-layer coil. Experimental verification of electromagnetic attractive force is performed through prototype tests, and the newly developed electromagnetic track brake can enhance electromagnetic braking deceleration by 39%.

Suggested Citation

  • Chun Xiang & Jun-Cheng Wang & Yu-Feng Gu & Shi-Jin Zhang & Shi-An Chen, 2020. "Experiment, Optimization, and Design of Electromagnetic Track Brake for High-Speed Railways System," Mathematical Problems in Engineering, Hindawi, vol. 2020, pages 1-11, March.
  • Handle: RePEc:hin:jnlmpe:6957963
    DOI: 10.1155/2020/6957963
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