A high-frequency phase feature for the measurement of magnetic permeability using eddy current sensor

Mingyang Lu; Xiaobai Meng; Ruochen Huang; Liming Chen; Anthony Peyton; Wuliang Yin

doi:10.1016/j.ndteint.2021.102519

A high-frequency phase feature for the measurement of magnetic permeability using eddy current sensor

Mingyang Lu, Xiaobai Meng, Ruochen Huang, Liming Chen, Anthony Peyton, Wuliang Yin

The University of Northampton

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

Abstract

Electromagnetic sensing has been used for diverse applications of non-destructive testing, including the surface inspection, measurement of properties, object characterization. However, the measurement accuracy could be significantly influenced by the lift-off between sensors and samples. To address the issue caused by lift-offs, various strategies have been proposed for the permeability measurement of ferromagnetic steels, which mainly involves different sensor designs and signal features (e.g., the zero-crossing feature). In this paper, a single high-frequency scenario for the permeability retrieval is introduced. By combining the signal of two sensing pairs, the retrieval of magnetic permeability is less affected by the lift-off of sensors. Unlike the previous strategy on reducing the lift-off effect (directly taking the phase term out of the integration) using the Dodd-Deeds analytical method, the proposed method is based on a high-frequency linear feature of the phase term. Therefore, this method has the merit of high accuracy and fast processing for the permeability retrieval (a simplified version of Dodd-Deeds analytical formulas after the integration). Experimental measurement has been carried out on the impedance measurement of designed sensors interrogating ferromagnetic dual-phase steels. For sensor lift-offs of up to 10 mm, the error of the permeability retrieval is controlled within 4% under the optimal frequency.

Original language	English
Article number	102519
Journal	NDT & E International
Volume	123
Early online date	11 Aug 2021
DOIs	https://doi.org/10.1016/j.ndteint.2021.102519
Publication status	Published - 1 Oct 2021

Keywords

Eddy current
Electromagnetic sensing
Lift-off
Magnetic permeability
Non-destructive testing

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10.1016/j.ndteint.2021.102519

Electromagnetic Sensing Group
Peyton, A. (PI), Fletcher, A. (Researcher), Daniels, D. (CoI), Conniffe, D. (PGR student), Podd, F. (PI), Davidson, J. (Researcher), Anderson, J. (Support team), Wilson, J. (Researcher), Marsh, L. (PI), O'Toole, M. (PI), Watson, S. (PGR student), Yin, W. (PI), Regan, A. (PGR student), Williams, K. (Researcher), Rana, S. (Researcher), Khalil, K. (PGR student), Hills, D. (PGR student), Whyte, C. (PGR student), Wang, C. (PGR student), Hodgskin-Brown, R. (PGR student), Dadkhahtehrani, F. (PGR student), Forster, S. (PGR student), Zhu, F. (PGR student), Yu, K. (PGR student), Xiong, L. (PGR student), Lu, T. (PGR student), Zhang, L. (PGR student), Lyu, R. (PGR student), Zhu, R. (PGR student), She, S. (PGR student), Meng, T. (PGR student), Pang, X. (PGR student), Zheng, X. (PGR student), Bai, X. (PGR student), Zou, X. (PGR student), Ding, Y. (PGR student), Shao, Y. (PGR student), Xia, Z. (PGR student), Zhang, Z. (PGR student), Khangerey, R. (PGR student) & Lawless, B. (Researcher)
1/10/04 → …
Project: Research

Cite this

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title = "A high-frequency phase feature for the measurement of magnetic permeability using eddy current sensor",

abstract = "Electromagnetic sensing has been used for diverse applications of non-destructive testing, including the surface inspection, measurement of properties, object characterization. However, the measurement accuracy could be significantly influenced by the lift-off between sensors and samples. To address the issue caused by lift-offs, various strategies have been proposed for the permeability measurement of ferromagnetic steels, which mainly involves different sensor designs and signal features (e.g., the zero-crossing feature). In this paper, a single high-frequency scenario for the permeability retrieval is introduced. By combining the signal of two sensing pairs, the retrieval of magnetic permeability is less affected by the lift-off of sensors. Unlike the previous strategy on reducing the lift-off effect (directly taking the phase term out of the integration) using the Dodd-Deeds analytical method, the proposed method is based on a high-frequency linear feature of the phase term. Therefore, this method has the merit of high accuracy and fast processing for the permeability retrieval (a simplified version of Dodd-Deeds analytical formulas after the integration). Experimental measurement has been carried out on the impedance measurement of designed sensors interrogating ferromagnetic dual-phase steels. For sensor lift-offs of up to 10 mm, the error of the permeability retrieval is controlled within 4% under the optimal frequency.",

keywords = "Eddy current, Electromagnetic sensing, Lift-off, Magnetic permeability, Non-destructive testing",

author = "Mingyang Lu and Xiaobai Meng and Ruochen Huang and Liming Chen and Anthony Peyton and Wuliang Yin",

note = "Funding Information: This work was supported by [ UK Engineering and Physical Sciences Research Council (EPSRC) ] [grant number: EP/P027237/1 ] [title: Real-time In-line Microstructural Engineering (RIME)]. Publisher Copyright: {\textcopyright} 2021 Elsevier Ltd",

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AU - Lu, Mingyang

AU - Meng, Xiaobai

AU - Huang, Ruochen

AU - Chen, Liming

AU - Peyton, Anthony

AU - Yin, Wuliang

N1 - Funding Information: This work was supported by [ UK Engineering and Physical Sciences Research Council (EPSRC) ] [grant number: EP/P027237/1 ] [title: Real-time In-line Microstructural Engineering (RIME)]. Publisher Copyright: © 2021 Elsevier Ltd

PY - 2021/10/1

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N2 - Electromagnetic sensing has been used for diverse applications of non-destructive testing, including the surface inspection, measurement of properties, object characterization. However, the measurement accuracy could be significantly influenced by the lift-off between sensors and samples. To address the issue caused by lift-offs, various strategies have been proposed for the permeability measurement of ferromagnetic steels, which mainly involves different sensor designs and signal features (e.g., the zero-crossing feature). In this paper, a single high-frequency scenario for the permeability retrieval is introduced. By combining the signal of two sensing pairs, the retrieval of magnetic permeability is less affected by the lift-off of sensors. Unlike the previous strategy on reducing the lift-off effect (directly taking the phase term out of the integration) using the Dodd-Deeds analytical method, the proposed method is based on a high-frequency linear feature of the phase term. Therefore, this method has the merit of high accuracy and fast processing for the permeability retrieval (a simplified version of Dodd-Deeds analytical formulas after the integration). Experimental measurement has been carried out on the impedance measurement of designed sensors interrogating ferromagnetic dual-phase steels. For sensor lift-offs of up to 10 mm, the error of the permeability retrieval is controlled within 4% under the optimal frequency.

AB - Electromagnetic sensing has been used for diverse applications of non-destructive testing, including the surface inspection, measurement of properties, object characterization. However, the measurement accuracy could be significantly influenced by the lift-off between sensors and samples. To address the issue caused by lift-offs, various strategies have been proposed for the permeability measurement of ferromagnetic steels, which mainly involves different sensor designs and signal features (e.g., the zero-crossing feature). In this paper, a single high-frequency scenario for the permeability retrieval is introduced. By combining the signal of two sensing pairs, the retrieval of magnetic permeability is less affected by the lift-off of sensors. Unlike the previous strategy on reducing the lift-off effect (directly taking the phase term out of the integration) using the Dodd-Deeds analytical method, the proposed method is based on a high-frequency linear feature of the phase term. Therefore, this method has the merit of high accuracy and fast processing for the permeability retrieval (a simplified version of Dodd-Deeds analytical formulas after the integration). Experimental measurement has been carried out on the impedance measurement of designed sensors interrogating ferromagnetic dual-phase steels. For sensor lift-offs of up to 10 mm, the error of the permeability retrieval is controlled within 4% under the optimal frequency.

KW - Eddy current

KW - Electromagnetic sensing

KW - Lift-off

KW - Magnetic permeability

KW - Non-destructive testing

U2 - 10.1016/j.ndteint.2021.102519

DO - 10.1016/j.ndteint.2021.102519

M3 - Article

SN - 0963-8695

VL - 123

JO - NDT & E International

JF - NDT & E International

M1 - 102519

ER -

A high-frequency phase feature for the measurement of magnetic permeability using eddy current sensor

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