| Name: | Description: | Size: | Format: | |
|---|---|---|---|---|
| 854.58 KB | Adobe PDF |
Advisor(s)
Abstract(s)
The contact between a wheel and a rail in the context of railway dynamics is mostly the result of the interaction of two convex surfaces. However, when negotiating sharp curves and due to worn profiles, the conformal contact tends to occur. In this type of interaction, the contact zone cannot be contained in a single plane as opposed to the non-conformal case. Hence, a new methodology to deal with conformal contact in the framework of railway dynamics is proposed in this work. A curved axis in the lateral direction is considered, and it is used to measure the separation between profiles. Moreover, the contact patch is divided into strips in which it is locally planar, and the pressure distribution is estimated based on Kik-Piotrowski model. The interaction between a wheel and rail has been tested for four static cases. The preliminary results show that this methodology can be a reliable alternative to the use of more computationally intensive approaches as the boundary or finite element methods.
Description
Keywords
Railway Dynamics Conformal contact
Citation
MARQUES, Filipe; [et al] – A new simplified approach to deal with conformal contact in railway Dynamics. In The 5th Joint International Conference on Multibody System Dynamics. Lisbon, Portugal, 2018. Pp. 1-14