Chunlei Yang scite author profile

Improving freight axle load is the most effective method to improve railway freight capability; based on the imported technologies of railway freight bogie, the 27 t axle load side-frame cross-bracing bogie and sub-frame radial bogie are developed in China. In order to analyze and compare dynamic interactions of the two newly developed heavy-haul freight bogies, we establish a vehicle-track coupling dynamic model and use numerical calculation methods for computer simulation. The dynamic performances of the two bogies are simulated separately at various conditions. The results show that at the dipped joint and straight line running conditions, the wheel-rail dynamic interactions of both bogies are basically the same, but at the curve negotiation condition, the wear and the lateral force of the side-frame cross-bracing bogie are much higher than that of the sub-frame radial bogie, and the advantages become more obvious when the curve radius is smaller. The results also indicate that the subframe radial bogie has better low-wheel-rail interaction characteristics.

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On vibrations of orthotropic conical shells

Yang

1974

Journal of Sound and Vibration

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Chunlei Yang

Influence of Curve Geometric Parameters on Dynamic Interactions of Side-Frame Cross-Braced Bogie

Research on the innovative hybrid impact hydroforming

Comparative study on wheel–rail dynamic interactions of side-frame cross-bracing bogie and sub-frame radial bogie

On vibrations of orthotropic conical shells

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