Calculation of locomotive traction force in transient rolling contact
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Date issued
2017
Authors
Journal Title
Journal ISSN
Volume Title
Publisher
University of West Bohemia
Abstract
To represent thewheel-rail contact in numerical simulations of rail vehicles, simplified models (Fastsim, Pola´ch etc.)
are usually employed. These models are designed for steady rolling only, which is perfectly suitable in many cases.
However, it is shown to be limiting for simulations at very low vehicle speeds, and therefore it does not actually
allow simulation of vehicle running at arbitrarily variable speed. The simplified model of transient rolling, which
involves calculation of the stress distribution in the discretised contact area, overcomes this disadvantage but might
be unnecessarily complex for more simple simulations. In this paper, an approximative creep force computation
method for transient rolling is presented. Its purpose is not to study the transient phenomena themselves but provide
a simple and readily available way to prevent incorrect results of the numerical simulation when the vehicle speed
approaches zero. The proper function of the proposed method is demonstrated by a simulation of start-up and
interrupted sliding of a four-axle locomotive.
Description
Subject(s)
kontakt kola a kolejnice, přilnavost, povrchová cesta, přechodné zvlnění
Citation
Applied and Computational Mechanics. 2017, vol. 11, no. 1, p. 1-12.