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A Study on the Pantograph Slide Wear Model Based on Energy Dissipation

Yiming Dong, Binghong Li, Zhong‐Hua Chen, Hebin Wang, Huayang Zhang

2025Applied Sciences6 citationsDOIOpen Access PDF

Abstract

During train operations, the contact surface between the pantograph slide and the catenary wire is subjected to mechanical friction and an electrical current, leading to an increase in the wear of the pantograph slide and a reduction in the service life of the pantograph–catenary friction pair. Therefore, the study of pantograph slide wear modeling and prediction is of great significance. This paper proposes a method to quantitatively characterize the wear of the pantograph slide by analyzing the energy dissipated through current-carrying friction in the pantograph–catenary system, from the perspective of the work done by the system. This study finds a significant linear relationship between the wear of the pantograph slide and the energy dissipated by current-carrying friction and establishes a mathematical model for pantograph slide wear based on energy dissipation, validating the effectiveness of the model. Furthermore, the relationship between the dissipated energy, contact current, contact pressure, and sliding speed is explored using experimental data, providing a quantitative explanation of the interaction between electrical and mechanical wear from an energy perspective. The wear morphology of the pantograph slide surface is further examined using metallographic microscopy, and the wear mechanism is analyzed. The applicability of the wear model is discussed, and it can be used for further studies on the current-carrying wear mechanisms in pantograph–catenary systems.

Topics & Concepts

PantographDissipationComputer scienceMechanical engineeringEngineeringPhysicsThermodynamicsElectrical Contact Performance and AnalysisMechanical stress and fatigue analysisAdhesion, Friction, and Surface Interactions
A Study on the Pantograph Slide Wear Model Based on Energy Dissipation | Litcius