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Eingeladener Vortrag
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Advantage of a combined ultrasonic and eddy current examination for railway inspection trains
(2007)
Some years ago, two railway inspection trains (RIT) already equipped with ultrasound, had additional advanced eddy current techniques installed. Recently, a new RIT was equipped with a system that was designed, from the beginning, to employ a combination of these two techniques for non-destructive rail inspection. The eddy current technique has been developed to enable identification and evaluation of rolling contact fatigue (RCF) defects. The ultrasound technique is aimed at measurements in the rail bulk volume, which are not feasible using the eddy current technique. Experience gained from application has shown that clear improvement on rail inspection can be achieved. For example, following Deutsche Bahn DB (German Rail) AG guideline, defects which are classified as group 2 using ultrasound testing can be further labelled as 'distinguished positions' if, for example, head checking can be identified in the same position using the eddy current technique. In other words, the new technique is capable of identifying two fundamentally different types of defects occurring at the same location. Such defects can then be classified as Group 1, equivalent according to the DB AG guideline. Furthermore, problem cases in the past, such as the decision whether a weld or rail joint is present for a fishing table, can be reliably determined using additional information from the eddy current technique. In this paper, examples will be provided to demonstrate application.
High speed non-destructive rail testing with advanced ultrasound and eddy-current testing techniques
(2009)
Today the rails face increased exposure to heavy loads, higher speeds and a very dense overall traffic. A continued development of testing methods for the rail inspection trains became necessary to match the modern needs for a fast detection and detailed classification of defects. To guarantee the safe operation of rail traffic non-destructive inspection techniques with combined ultrasound and eddy current testing methods are used to detect damages on rails. One of the main actual challenges of automated rail testing is the high inspection speed which is very close to the physical limits. To overcome these limits digital signal processing algorithms have to be used which maintain resolution and detection quality independent of operation speed. This paper presents a recently developed state of the art rail inspection system which uses advanced ultrasonic and eddy current testing techniques. Testing results are shown in a newly developed so called Glassy-Rail-Diagram which is capable to present data with a fixed resolution independent of inspection speed.
High speed non-destructive rail testing with advanced ultrasound and eddy-current testing techniques
(2009)
Zur Gewährleistung des sicheren Betriebs von Schienenfahrzeugen werden bei der laufenden Instandhaltung die Radsätze (Laufräder und Radsatzwellen) mittels Ultraschall auf Fehlerfreiheit geprüft. Auf Grund der Komplexität der durchzuführenden Prüfungen an der Radscheibe von scheibengebremsten Fahrzeugen ist beim Einsatz konventioneller Techniken eine große Anzahl Ultraschallprüfköpfe erforderlich, deren Reduzierung eine technische Herausforderung darstellt. Auch bei der Prüfung von Radsatzvollwellen sind auf Grund der eingeschränkten Zugänglichkeit unterschiedliche Winkelprüfköpfe erforderlich. Ein Ziel der Untersuchungen bestand darin, die Anzahl der erforderlichen konventionellen Prüfköpfe deutlich zu reduzieren. Dazu kann die Gruppenstrahlertechnik einen Beitrag leisten.