Monitoring Pipe-Wall Corrosion Rate by Ultrasonic Technique
Subject Areas : journal of Artificial Intelligence in Electrical Engineering
Behzad Esmaeili Aghdam
1
,
Hossein Nasir Aghdam
2
1 -
2 -
Keywords:
Abstract :
[1] F.W. Mauldin Jr, F. Viola, W.F. Walker, (2009).
Reduction of echo de-correlation via complex
principal component filtering, Ultrasound Med.
Biol. 35 (8) (1325–1343).
[2] T. Rommetveit, T.F. Johansen, R. Johnsen, (2010). A combined approach for high resolution corrosion monitoring and temperature compensation using ultrasound, IEEE Trans. Instrum. Meas. 59 (11) 2843–2853.
[3] F. Honarvar, F. Salehi, V. Safavi, A. Mokhtari, A.
N. Sinclair, (2013). Ultrasonic monitoring of
erosion/corrosion thinning rates in industrial
piping systems, Ultrasonics 53 1251–1258.
[4] H.S. Chung, (2010). A review of CANDU feeder wall thinning, Nucl. Eng. Technol. 42 (5) 568–575.
[5] A.N. Sinclair, V. Safavi, F. Honarvar, (2011). Ultrasonic measurement of erosion/ corrosion rates in industrial piping systems, in: D.O. Thompson, D.E. Chimenti (Eds.), Review of progress in quantitative nondestructive evaluation, AIP Conf. Proc.,
[6] F. Honarvar et al., (2004). Improving the time-resolution and signal-to-noise ratio of ultrasonic NDE signals, Ultrasonics 41 (9) 755–763.
