Abstract
One of the most important aspects in the operation of rail vehicles is the implementation of transport while ensuring safety and comfort of passengers. Technical condition of the wheel rolling surfaces has a direct impact on these factors. These elements are subject to wear and tear in a continuous and discrete form. One of the discrete wear forms is the wheel-flat on wheel rolling surfaces that generate impulse noise. This translates into a significant deterioration of vibroacoustic comfort, and in extreme cases also to a greater risk associated with e.g. derailment of the vehicle. Therefore, it is desirable in particular by the rolling stock operator to carry out cyclic diagnostics and monitoring of the condition of wheel rolling surfaces. This paper is a continuation in a series of research articles carried out by the authors related to vibroacoustic diagnostics of wheel rolling surfaces in light rail vehicles. As part of this article, acoustic measurements were carried out at a dedicated track-side system during so-called pass-by tests. Acoustic signals were analyzed in accordance with the Fourier and Hilbert transforms. Additionally, the main assumptions of vibroacoustic diagnostics and analyses of point measures were used. This allowed for the development of yet another way of monitoring the occurrence of the problem of wheel flats in rail vehicles.
Highlights
AND MAIN THEORETICAL ASPECTSThe good technical condition of the rolling wheel surface is one of the most important aspects of the rail running gear
Other wheel surface defects are the spalling effects. They are caused by peeling of the top wheel surface layer as a result of the material shifting from the flat wheel
The article presents the possibility of using acoustic signals to diagnose rail vehicle wheels in the context of detecting defects in rolling surfaces such as wheel-flats
Summary
The good technical condition of the rolling wheel surface is one of the most important aspects of the rail running gear. Every rail vehicle in normal operating conditions has a standardized wheel rim profile. The flat wheel, which is included in the tread surface group defects, is one of the railway operational problems, where the local rolling surface geometry is changed significantly. Blocked wheel rotation is the main cause of this problem. At that moment the wheel surface temporarily slides over the rail which results an intensive abrasion of the rolling surface. Other wheel surface defects are the spalling effects. They are caused by peeling of the top wheel surface layer as a result of the material shifting from the flat wheel.
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