A magnetic perturbation GMR-based probe for the nondestructive evaluation of surface cracks in ferromagnetic steels

J. Aguila-Muñoz; J. H. Espina-Hernández; J. A. Pérez-Benítez; F. Caleyo; J. M. Hallen

doi:10.1016/j.ndteint.2016.01.004

A magnetic perturbation GMR-based probe for the nondestructive evaluation of surface cracks in ferromagnetic steels

J. Aguila-Muñoz, J. H. Espina-Hernández, J. A. Pérez-Benítez, F. Caleyo, J. M. Hallen

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

19 Scopus citations

Abstract

In this paper, a new portable magnetic perturbation probe using a Giant Magneto-Resistance (GMR) sensor to detect and characterize surface cracks in ferromagnetic steels is presented. Measurements from one tangential component of the magnetic flux density are obtained during a single scan over a crack, and two parameters are defined from the output voltage of the GMR sensor: the distance between the peaks, DX, and their voltage difference, DV. The correlations between DX and DV and crack features such as depth, width, and orientation angle are determined. Sensitivity analyses are performed based on the studied features. The probe permits the user to obtain the crack's orientation angle using only one measured tangential component of the magnetic flux density. A simple procedure to estimate the crack's features is proposed based on the presented analysis.

Original language	English
Pages (from-to)	132-141
Number of pages	10
Journal	NDT and E International
Volume	79
DOIs	https://doi.org/10.1016/j.ndteint.2016.01.004
State	Published - Apr 2016

Keywords

Crack orientation
Crack sizing
Ferromagnetic steel
GMR sensor
Magnetic perturbation
Permanent magnet

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10.1016/j.ndteint.2016.01.004

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title = "A magnetic perturbation GMR-based probe for the nondestructive evaluation of surface cracks in ferromagnetic steels",

abstract = "In this paper, a new portable magnetic perturbation probe using a Giant Magneto-Resistance (GMR) sensor to detect and characterize surface cracks in ferromagnetic steels is presented. Measurements from one tangential component of the magnetic flux density are obtained during a single scan over a crack, and two parameters are defined from the output voltage of the GMR sensor: the distance between the peaks, DX, and their voltage difference, DV. The correlations between DX and DV and crack features such as depth, width, and orientation angle are determined. Sensitivity analyses are performed based on the studied features. The probe permits the user to obtain the crack's orientation angle using only one measured tangential component of the magnetic flux density. A simple procedure to estimate the crack's features is proposed based on the presented analysis.",

keywords = "Crack orientation, Crack sizing, Ferromagnetic steel, GMR sensor, Magnetic perturbation, Permanent magnet",

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T1 - A magnetic perturbation GMR-based probe for the nondestructive evaluation of surface cracks in ferromagnetic steels

AU - Aguila-Muñoz, J.

AU - Espina-Hernández, J. H.

AU - Pérez-Benítez, J. A.

AU - Caleyo, F.

AU - Hallen, J. M.

PY - 2016/4

Y1 - 2016/4

N2 - In this paper, a new portable magnetic perturbation probe using a Giant Magneto-Resistance (GMR) sensor to detect and characterize surface cracks in ferromagnetic steels is presented. Measurements from one tangential component of the magnetic flux density are obtained during a single scan over a crack, and two parameters are defined from the output voltage of the GMR sensor: the distance between the peaks, DX, and their voltage difference, DV. The correlations between DX and DV and crack features such as depth, width, and orientation angle are determined. Sensitivity analyses are performed based on the studied features. The probe permits the user to obtain the crack's orientation angle using only one measured tangential component of the magnetic flux density. A simple procedure to estimate the crack's features is proposed based on the presented analysis.

AB - In this paper, a new portable magnetic perturbation probe using a Giant Magneto-Resistance (GMR) sensor to detect and characterize surface cracks in ferromagnetic steels is presented. Measurements from one tangential component of the magnetic flux density are obtained during a single scan over a crack, and two parameters are defined from the output voltage of the GMR sensor: the distance between the peaks, DX, and their voltage difference, DV. The correlations between DX and DV and crack features such as depth, width, and orientation angle are determined. Sensitivity analyses are performed based on the studied features. The probe permits the user to obtain the crack's orientation angle using only one measured tangential component of the magnetic flux density. A simple procedure to estimate the crack's features is proposed based on the presented analysis.

KW - Crack orientation

KW - Crack sizing

KW - Ferromagnetic steel

KW - GMR sensor

KW - Magnetic perturbation

KW - Permanent magnet

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U2 - 10.1016/j.ndteint.2016.01.004

DO - 10.1016/j.ndteint.2016.01.004

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VL - 79

SP - 132

EP - 141

JO - NDT and E International

JF - NDT and E International

ER -

A magnetic perturbation GMR-based probe for the nondestructive evaluation of surface cracks in ferromagnetic steels

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Keywords

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