TY - GEN
T1 - Detection Method Using a Dual-channel Magnetic Sensor for Steel Cracks in Complicated Structures
AU - Hayashi, Minoru
AU - Nakamura, Yoshihiro
AU - Sakai, Kenji
AU - Kiwa, Toshihiko
AU - Tanikura, Izumi
AU - Tsukada, Keiji
N1 - Funding Information:
This work was supported by the Council for Science, Technology, and Innovation, “Cross-ministerial Strategic Innovation Promotion Program (SIP), Infrastructure Maintenance, Renovation, and Management” (funding agency: JST).
Publisher Copyright:
© APWSHM 2018. All rights reserved.
PY - 2018
Y1 - 2018
N2 - Conventional eddy current testing (ECT) using a pickup coil is widely employed for detecting cracks. However, it is sometimes difficult to apply conventional ECT to steel structures because of the magnetic noise caused by the non-uniform permeability of steel. To combat this challenge, we developed a small magnetic sensor probe with dual-channel tunnelling magnetic resistance capable of reducing magnetic noise. To apply the developed magnetic sensor probe to a complicated component of a steel structure, such as the welds joining the U-rib and deck plate, signal fluctuations caused by the lift-off variations between the sensor probe and the subject during magnetic sensor probing must be resolved. Therefore, we developed a method to distinguish between the signal changes caused by lift-off variations and cracks. The intensity and phase of the subtracted signal were used to develop traces of differential parameters obtained by scanning the magnetic probe. A visualization technique using only the traces of differential parameters, i.e. the Lissajous curve of X-Y processing, was applied not only to the cracks of the flat steel plate but also to the cracks in welded angles. The developed Lissajous curve emphasized the crack signals, which allowed clear differences between the signal change caused by the lift-off variations and cracks to be observed.
AB - Conventional eddy current testing (ECT) using a pickup coil is widely employed for detecting cracks. However, it is sometimes difficult to apply conventional ECT to steel structures because of the magnetic noise caused by the non-uniform permeability of steel. To combat this challenge, we developed a small magnetic sensor probe with dual-channel tunnelling magnetic resistance capable of reducing magnetic noise. To apply the developed magnetic sensor probe to a complicated component of a steel structure, such as the welds joining the U-rib and deck plate, signal fluctuations caused by the lift-off variations between the sensor probe and the subject during magnetic sensor probing must be resolved. Therefore, we developed a method to distinguish between the signal changes caused by lift-off variations and cracks. The intensity and phase of the subtracted signal were used to develop traces of differential parameters obtained by scanning the magnetic probe. A visualization technique using only the traces of differential parameters, i.e. the Lissajous curve of X-Y processing, was applied not only to the cracks of the flat steel plate but also to the cracks in welded angles. The developed Lissajous curve emphasized the crack signals, which allowed clear differences between the signal change caused by the lift-off variations and cracks to be observed.
KW - Eddy current testing
KW - Magnetic sensor
KW - Signal processing
KW - Steel crack detection
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M3 - Conference contribution
AN - SCOPUS:85064618283
T3 - Proceedings of the 7th Asia-Pacific Workshop on Structural Health Monitoring, APWSHM 2018
SP - 580
EP - 586
BT - Proceedings of the 7th Asia-Pacific Workshop on Structural Health Monitoring, APWSHM 2018
A2 - Su, Zhongqing
A2 - Yuan, Shenfang
A2 - Sohn, Hoon
PB - NDT.net
T2 - 7th Asia-Pacific Workshop on Structural Health Monitoring, APWSHM 2018
Y2 - 12 November 2018 through 15 November 2018
ER -