Abstract
Pantograph-catenary system is the key part of train current collection. The current density distribution of current-carrying friction pair used in pantograph-catenary system affects the safety running of train. At present, there is little research on the current density distribution of the friction pair. Because it is difficult to measure the current density directly, it is necessary to study by simulation. A sliding electrical contact simulation model of pantograph-catenary system was established by COMSOL Multiphysics software. The current density distribution of the friction pair under normal, light, and heavy rain conditions were studied with the simulation model. The current density isosurface in contact wire is saddle-shaped, and that in slide is arc-shaped. Under normal condition, the current density of contact area increases firstly and then decreases with the increase of contact force. It increases with the increase of current and decreases with the increase of sliding speed. Under rain condition, the current density decreases firstly and then increases with the increase of contact force. It increases with the increase of current. It increases firstly, then decreases and finally increases with the increase of sliding speed. Under the same contact force, sliding speed, and current conditions, the current density under rain condition is lower than that under no rain condition. Finally, the validity of the model was verified.
Highlights
The pantograph-catenary system is an important part to ensure current collection performance of electric locomotive
The current density distribution of current-carrying friction pair used in pantograph-catenary system directly affects the temperature characteristics of contact area, and affects the safety running of train
The effect of current density on temperature and surface morphology was analyzed and the results showed that the higher the current density was, the higher the surface temperature was [9]
Summary
The pantograph-catenary system is an important part to ensure current collection performance of electric locomotive. The current density distribution of current-carrying friction pair used in pantograph-catenary system directly affects the temperature characteristics of contact area, and affects the safety running of train. The transient process of contact surface temperature of a current-carrying friction pair used in pantograph-catenary system was simulated [13]. It showed that the temperature decreased from contact area to surrounding area. The contact force of pantograph-catenary system was evaluated and the influence of the friction coupling on the current collection was analyzed through the numerical simulation [14]. The research on current density distribution of current-carrying friction pair used in pantograph-catenary system is relatively rare. The effect of contact force, current, and sliding speed on current density was studied
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