Polyvinyl chloride (PVC) brush hair has demonstrated excellent performance in snow removal applications. Using a self-designed straight-cut test device, the snow removal efficiency of PVC brush hair was evaluated under various temperature and speed conditions. Experimental data showed that the average snow removal efficiency of PVC brush hair reached 98.7%, which is 15.6% more energy-efficient than traditional metal brushes, and also exhibited excellent durability. High-speed camera analysis revealed the mechanism of snow destruction, providing a scientific basis for optimizing brush hair design. These findings lay the foundation for the widespread application of PVC materials in snow removal equipment, which is expected to significantly improve winter road maintenance efficiency.

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Analysis of Snow Brush Hair Movement Trajectory Based on MATLAB Simulation

  • Ming Zhao,
  • Xiangdong Liu,
  • Yangcheng Guo,
  • Longfei Wu

摘要

Polyvinyl chloride (PVC) brush hair has demonstrated excellent performance in snow removal applications. Using a self-designed straight-cut test device, the snow removal efficiency of PVC brush hair was evaluated under various temperature and speed conditions. Experimental data showed that the average snow removal efficiency of PVC brush hair reached 98.7%, which is 15.6% more energy-efficient than traditional metal brushes, and also exhibited excellent durability. High-speed camera analysis revealed the mechanism of snow destruction, providing a scientific basis for optimizing brush hair design. These findings lay the foundation for the widespread application of PVC materials in snow removal equipment, which is expected to significantly improve winter road maintenance efficiency.