Abstract
Nonlinear imaging techniques have recently emerged which have the potential to detect material degradation and challenging defects, such as closed cracks. This paper describes an investigation into the performance of nonlinear ultrasonic imaging (NUI) for the monitoring of the early stages of fatigue crack growth. This technique, in conjunction with conventional array imaging, is applied to the periodic monitoring of steel compact tension specimens subjected to high cycle fatigue loading. The detection limits of these techniques are investigated. Their abilities to localise and detect small cracks are further quantified with the aid of micrography. The results suggest that NUI is more sensitive than conventional ultrasonic imaging to the microscale changes occurring at the early stages of failure, i.e. detectability starts c. 15% of fatigue life. In addition to early detection, the potential for NUI to deliver accurate sizing of fatigue cracks and monitor crack propagation is also presented.
Highlights
Crack growth generated by fatigue loading causes the failure of many aged engineering structures
A mild steel compact tension (CT) specimen was subjected to cyclic loading in order to ascertain the performance of nonlinear ultrasonic imaging (NUI) and total focusing method (TFM) imaging with crack growth
The experimental results presented show that monitoring fatigue crack growth in mild steel using the NUI technique was effective from 15% fatigue life
Summary
Crack growth generated by fatigue loading causes the failure of many aged engineering structures. Detection is important to plan maintenance and guarantee the safety of structures. It is well known that these techniques are inaccurate if the crack is small or partially closed [1,2,3]. This means that the detection of fatigue in its early stages is not currently possible and necessarily non-destructive inspection is focussed on monitoring cracks towards the middle and end of a component’s fatigue life. The consequence is that inspection intervals must be shortened
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