Laser ultrasonic system for surface crack visualization in dissimilar welds of control rod drive mechanism assembly of nuclear power plant

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Abstract

In this paper, we propose a J-groove dissimilar weld crack visualization system based on ultrasonic propagation imaging (UPI) technology. A full-scale control rod drive mechanism (CRDM) assembly specimen was fabricated to verify the proposed system. An ultrasonic sensor was contacted at one point of the inner surface of the reactor vessel head part of the CRDM assembly. Q-switched laser beams were scanned to generate ultrasonic waves around the weld bead. The localization and sizing of the crack were possible by ultrasonic wave propagation imaging. Furthermore, ultrasonic spectral imaging unveiled frequency components of damage-induced waves, while wavelet-transformed ultrasonic propagation imaging enhanced damage visibility by generating a wave propagation video focused on the frequency component of the damage-induced waves. Dual-directional anomalous wave propagation imaging with adjacent wave subtraction was also developed to enhance the crack visibility regardless of crack orientation and wave propagation direction. In conclusion, the full-scale specimen test demonstrated that the multiple damage visualization tools are very effective in the visualization of J-groove dissimilar weld cracks. Copyright © 2014 Yun-Shil Choi et al.

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APA

Choi, Y. S., Jeong, H., & Lee, J. R. (2014). Laser ultrasonic system for surface crack visualization in dissimilar welds of control rod drive mechanism assembly of nuclear power plant. Shock and Vibration, 2014. https://doi.org/10.1155/2014/296426

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