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Rail squats are a form of near surface rolling contact fatigue damage found in rail heads. Currently, the most popular method to detect the rail squats is utilizing ultrasonic techniques to determine their presence and measure their depths. This technique needs to be direct contact between the probe and the rail head, with a coupling fluid in at the interface. Other weaknesses of these ultrasonic techniques include false detections as well as missed detections. Infrared thermography is a relatively new non-destructive inspection technique used for a wide range of applications but is not used for rail squat detection. Lock-in thermography is a non-destructive inspection technique that can be used for the detection of near surface defects. It utilizes an infrared camera to detect the thermal waves and then produces a thermal image, which displays the local thermal wave variation in phase or amplitude. In inhomogeneous materials, the amplitude and phase of the thermal wave carries information related to both the local thermal properties and the nature of the structure being inspected. This comparison is then used to determine the phase angle difference Δf between the input and the thermal response of the object. The aim of this paper is to determine whether lock-in thermography can be used to firstly locate squats in rails, and secondly measure their depths. It has demonstrated the feasibility for using such a technique in generating thermal responses that could be adequately utilized for the purpose of defect characterization.

KEYWORDS

Lock-In Thermography; Phase Contrast; Infrared Camera; Squat; Non-Destructive Inspection

Cite this paper

D. Peng and R. Jones -NDI of Rail Squats and Estimating Defect Size and Location Using Lock-In Thermography,- Engineering, Vol. 5 No. 1, 2013, pp. 29-38. doi: 10.4236-eng.2013.51005.





Autor: Daren Peng, Rhys Jones

Fuente: http://www.scirp.org/



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