Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
4986862 | Wear | 2016 | 7 Pages |
Abstract
In this paper the performance of primary suspension elements with Frequency Selective Stiffness (FSS) behaviour in bogies is presented with respect to the ability to reduce wear and fatigue damage at the wheel-rail interface, thus enhancing the so-called 'track friendliness' of trains. Vehicle behaviour during negotiation of a turnout is evaluated in a case study with the Dutch double stock VIRM-4 train. Assessment of vehicle running behaviour is carried out by means of track-train simulations within the VAMPIRE multibody simulation software. The impact of FSS suspension elements is quantified in relation to wear and rolling contact fatigue damage (RCF) in the wheel-rail interface and regarding ride quality. The research shows that with application of FSS elements at the primary suspension, wear loading of switch and closure rail can be reduced significantly, increasing expected maintenance intervals and rail life. Simulation results demonstrate passenger comfort levels not to be influenced negatively.
Keywords
Related Topics
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Chemical Engineering
Colloid and Surface Chemistry
Authors
Martin Hiensch, Pier Wiersma,