Real-Time Detection and Quantification of Rail Surface Cracks Using Surface Acoustic Waves and Piezoelectric Patch Transducers

Real-Time Detection and Quantification of Rail Surface Cracks Using Surface Acoustic Waves and Piezoelectric Patch Transducers

This paper presents a novel wayside rail monitoring system for real-time detection and quantification of rail surface cracks with sub-millimeter precision. The core innovation lies in mounting piezoelectric transducers on the web of the rail—an unconventional and practical location that avoids inter...

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Bibliographic Details
Main Authors: Mohsen Rezaei, Sven Eck, Sebastian Fichtenbauer, Jürgen Maierhofer, Reinhard Klambauer, Alexander Bergmann, David Künstner, Dino Velic, Hans-Peter Gänser
Format: Article
Language:English
Published: MDPI AG 2025-05-01
Series:Sensors
Subjects:
rail monitoring
surface acoustic waves
piezoelectric transducers
surface defects
rolling contact fatigue
crack quantification
Online Access:https://www.mdpi.com/1424-8220/25/10/3014
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Summary:This paper presents a novel wayside rail monitoring system for real-time detection and quantification of rail surface cracks with sub-millimeter precision. The core innovation lies in mounting piezoelectric transducers on the web of the rail—an unconventional and practical location that avoids interference with wheel passages while enabling continuous monitoring in real-world conditions. Moreover, to directly quantify crack depth, a customized signal processing pipeline is developed, employing surface acoustic waves (SAWs) and incorporating a parallel reference transducer pair mounted on an undamaged rail section for calibration. This auxiliary pair provides a real-time calibration baseline, improving measurement robustness and accuracy. The method is experimentally validated on rail samples and verified through metallographic analysis. This approach enables condition-based maintenance by improving detection accuracy and offers the potential to reduce operational costs and enhance railway safety.
ISSN:1424-8220

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