Sizing of wall thinning defects using pulsed eddy current testing signals based on a hybrid inverse analysis method

Shejuan Xie; Zhenmao Chen; Hong En Chen; Xiaowei Wang; Toshiyuki Takagi; Tetsuya Uchimoto

doi:10.1109/TMAG.2012.2236827

Sizing of wall thinning defects using pulsed eddy current testing signals based on a hybrid inverse analysis method

Shejuan Xie, Zhenmao Chen, Hong En Chen, Xiaowei Wang, Toshiyuki Takagi, Tetsuya Uchimoto

Research output: Contribution to journal › Article › peer-review

44 Citations (Scopus)

Abstract

Quantitative non-destructive evaluation, especially sizing of piping wall thinning in nuclear power plants is still a difficult and urgent issue. In this paper, an inversion approach for PECT (pulsed eddy current testing) signals is developed based on ANN (artificial neural network) method at first for profile reconstruction of wall thinning, the sizing result of NN is then utilized as the initial value of the CG (conjugate gradient) inversion scheme to overcome the shortages of both the NN (accuracy problem) and CG (local minimum problem) methods. Several reconstruction examples using the proposed hybrid strategy indicate that the combination of NN and CG methods is rather effective for wall thinning reconstruction from PECT signals in view of both the robustness and sizing accuracy.

Original language	English
Article number	6514798
Pages (from-to)	1653-1656
Number of pages	4
Journal	IEEE Transactions on Magnetics
Volume	49
Issue number	5
DOIs	https://doi.org/10.1109/TMAG.2012.2236827
Publication status	Published - 2013

Keywords

Hybrid inverse analysis
local wall thinning
pulsed eddy current testing
quantitative NDT

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10.1109/TMAG.2012.2236827

Cite this

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abstract = "Quantitative non-destructive evaluation, especially sizing of piping wall thinning in nuclear power plants is still a difficult and urgent issue. In this paper, an inversion approach for PECT (pulsed eddy current testing) signals is developed based on ANN (artificial neural network) method at first for profile reconstruction of wall thinning, the sizing result of NN is then utilized as the initial value of the CG (conjugate gradient) inversion scheme to overcome the shortages of both the NN (accuracy problem) and CG (local minimum problem) methods. Several reconstruction examples using the proposed hybrid strategy indicate that the combination of NN and CG methods is rather effective for wall thinning reconstruction from PECT signals in view of both the robustness and sizing accuracy.",

keywords = "Hybrid inverse analysis, local wall thinning, pulsed eddy current testing, quantitative NDT",

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AU - Xie, Shejuan

AU - Chen, Zhenmao

AU - Chen, Hong En

AU - Wang, Xiaowei

AU - Takagi, Toshiyuki

AU - Uchimoto, Tetsuya

PY - 2013

Y1 - 2013

N2 - Quantitative non-destructive evaluation, especially sizing of piping wall thinning in nuclear power plants is still a difficult and urgent issue. In this paper, an inversion approach for PECT (pulsed eddy current testing) signals is developed based on ANN (artificial neural network) method at first for profile reconstruction of wall thinning, the sizing result of NN is then utilized as the initial value of the CG (conjugate gradient) inversion scheme to overcome the shortages of both the NN (accuracy problem) and CG (local minimum problem) methods. Several reconstruction examples using the proposed hybrid strategy indicate that the combination of NN and CG methods is rather effective for wall thinning reconstruction from PECT signals in view of both the robustness and sizing accuracy.

AB - Quantitative non-destructive evaluation, especially sizing of piping wall thinning in nuclear power plants is still a difficult and urgent issue. In this paper, an inversion approach for PECT (pulsed eddy current testing) signals is developed based on ANN (artificial neural network) method at first for profile reconstruction of wall thinning, the sizing result of NN is then utilized as the initial value of the CG (conjugate gradient) inversion scheme to overcome the shortages of both the NN (accuracy problem) and CG (local minimum problem) methods. Several reconstruction examples using the proposed hybrid strategy indicate that the combination of NN and CG methods is rather effective for wall thinning reconstruction from PECT signals in view of both the robustness and sizing accuracy.

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KW - pulsed eddy current testing

KW - quantitative NDT

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Sizing of wall thinning defects using pulsed eddy current testing signals based on a hybrid inverse analysis method

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