Development of UT procedure for SCC crack depth sizing by phased array UT in Ni-based alloy weld

Abstract: The advanced phased array UT technique for SCC crack depth sizing in Ni-based alloy weld was developed. In previous study, authors proposed to the UT procedure for defect depth sizing by phased array UT in the inside inspection. The UT procedure was applied to the defect depth sizing in Ni-based alloy weld specimen with EDM notches. From these results, superior performance for defect depth sizing by phased array UT technique was shown. However, it is not clarified the performance of SCC crack depth sizing. And… Show more

“…Particularly, there is much research in phased array flaw detection, a method in which multiple oscillators are arranged one-dimensionally, and ultrasound emitted by the oscillators is electronically scanned to acquire cross-sectional images [2][3][4]. Particularly, there is much research in phased array flaw detection, a method in which multiple oscillators are arranged one-dimensionally, and ultrasound emitted by the oscillators is electronically scanned to acquire cross-sectional images [2][3][4].…”

“…Ultrasonic imaging is an ultrasound-based flaw detection technique that presents test results as two-or threedimensional images on display. Particularly, there is much research in phased array flaw detection, a method in which multiple oscillators are arranged one-dimensionally, and ultrasound emitted by the oscillators is electronically scanned to acquire cross-sectional images [2][3][4]. However, with phased array flaw detection systems, multiple elements must be controlled in parallel, which makes devices complex and expensive; moreover, aperture area of line-arrayed probes unavoidably grows large as compared to a single probe.…”

Study on Pulse Compression Ultrasonic Imaging by a Stacked M‐Sequence Encoding Probe

“…Particularly, there is much research in phased array flaw detection, a method in which multiple oscillators are arranged one-dimensionally, and ultrasound emitted by the oscillators is electronically scanned to acquire cross-sectional images [2][3][4]. Particularly, there is much research in phased array flaw detection, a method in which multiple oscillators are arranged one-dimensionally, and ultrasound emitted by the oscillators is electronically scanned to acquire cross-sectional images [2][3][4].…”

“…Ultrasonic imaging is an ultrasound-based flaw detection technique that presents test results as two-or threedimensional images on display. Particularly, there is much research in phased array flaw detection, a method in which multiple oscillators are arranged one-dimensionally, and ultrasound emitted by the oscillators is electronically scanned to acquire cross-sectional images [2][3][4]. However, with phased array flaw detection systems, multiple elements must be controlled in parallel, which makes devices complex and expensive; moreover, aperture area of line-arrayed probes unavoidably grows large as compared to a single probe.…”

Study on Pulse Compression Ultrasonic Imaging by a Stacked M‐Sequence Encoding Probe