Affiliation of Author(s):航空学院
Journal:MECCANICA
Key Words:Ultrasonic guided waves Flaw reconstruction Denoising Wavelet transform Wavenumber domain
Abstract:The ultrasonic guided wave technique is a potential and useful tool for nondestructive testing. The scattered or reflected wave from a flaw can give its qualitative or even quantitative information such as location, size and severity. However, in experiments and in situ tests, the noises always exist together with signals. In this paper, we propose a wavelet-transform based noise processing approach for reflected wave signals to the quantitative reconstruction of surface flaws on a plate using guided SH waves. We suggest two different denoising methods based on wavelet transform (WT) in time and wavenumber domains respectively. Numerical results show that wavenumber-domain WT operation gives a better denoising effect than direct time-domain WT denoising. Using the former, one can successfully perform the inverse reconstruction of flaw by reflected signals with signal noise ratio as high as -5 dB. This research can act as a theoretical reference for practical applications of ultrasonic guided SH waves in quantitative nondestructive evaluation.
ISSN No.:0025-6455
Translation or Not:no
Date of Publication:2017-08-01
Co-author:笪益辉,Qian Zhenghua
Correspondence Author:Wang Bin,Qian Zhenghua
Date of Publication:2017-08-01
MOBILE Version
