Modelling of Frictional Conditions in the Wheel–Rail Interface Due to Application of Top-of-Rail Products
Autor: | Zing Siang Lee, Klaus Six, Gerald Trummer, Roger Lewis |
---|---|
Jazyk: | angličtina |
Rok vydání: | 2021 |
Předmět: |
product transfer
Materials science Mechanical Engineering Science Work (physics) product carry-on Mechanical engineering Friction modifier Function (mathematics) Energy consumption wheel–rail interface top-of-rail products Surfaces Coatings and Films friction modifier product consumption Position (vector) Product (mathematics) friction modelling Limit (music) railways Tread |
Zdroj: | Lubricants, Vol 9, Iss 100, p 100 (2021) Lubricants Volume 9 Issue 10 |
ISSN: | 2075-4442 |
Popis: | The coefficient of friction between a wheel tread and the top of the rail should be maintained at intermediate levels to limit frictional tangential contact forces. This can be achieved by applying top-of-rail products. Reducing the coefficient of friction to intermediate levels reduces energy consumption and fuel costs, as well as damage to the wheel and rail surfaces, such as, e.g., wear, rolling contact fatigue, and corrugation. This work describes a simulation model that predicts the evolution of the coefficient of friction as a function of the number of wheel passes and the distance from the application site for wayside application of top-of-rail products. The model considers the interplay of three mechanisms, namely the pick-up of product by the wheel at the application site, the repeated transfer of the product between the wheel and rail surfaces, and the product consumption. The model has been parameterized with data from small-scale twin disc rig experiments and full-scale wheel–rail rig experiments. Systematic investigations of the model behaviour for a railway operating scenario show that all three mechanisms may limit the achievable carry-on distance of the product. The developed simulation model assists in understanding the interplay of the mechanisms that govern the evolution of the coefficient of friction in the field. It may aid in finding optimal product application strategies with respect to application position, application amount, and application pattern depending on specific railway operating conditions. |
Databáze: | OpenAIRE |
Externí odkaz: |