Improved magnetoelectric effect in magnetostrictive/piezoelectric composite with flux concentration effect for sensitive magnetic sensor

Improved magnetoelectric effect in magnetostrictive/piezoelectric composite with flux concentration effect for sensitive magnetic sensor

The magnetoelectric (ME) composite with the flux concentration effect is designed, fabricated, and characterized for detecting weak ac magnetic-field. The high-permeability Fe73.5Cu1Nb3Si13.5B9 (FeCuNbSiB) foils act as flux concentrators and are bonded at the free ends of traditional ME laminates. W...

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Main Authors: Hao Zhang, Caijiang Lu, Changbao Xu, Yingjie Xiao, Junguo Gui, Chenhui Lin, Yong Xiao
Format: Article
Language:English
Published: AIP Publishing LLC 2015-04-01
Series:AIP Advances
Online Access:http://dx.doi.org/10.1063/1.4917493
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spelling doaj-f87ec7274db043de8cde2f5b31243b052020-11-24T22:19:46ZengAIP Publishing LLCAIP Advances2158-32262015-04-0154047114047114-510.1063/1.4917493014504ADVImproved magnetoelectric effect in magnetostrictive/piezoelectric composite with flux concentration effect for sensitive magnetic sensorHao Zhang0Caijiang Lu1Changbao Xu2Yingjie Xiao3Junguo Gui4Chenhui Lin5Yong Xiao6Engineering Research Center of Shipping Simulation Ministry of Education, Merchant Marine College, Shanghai Maritime University, Shanghai 201306, ChinaGuizhou Electric Power Test & Research Institute, China Southern Power Grid, Guiyang 550002, ChinaGuizhou Electric Power Test & Research Institute, China Southern Power Grid, Guiyang 550002, ChinaEngineering Research Center of Shipping Simulation Ministry of Education, Merchant Marine College, Shanghai Maritime University, Shanghai 201306, ChinaGuizhou Electric Power Test & Research Institute, China Southern Power Grid, Guiyang 550002, ChinaGuizhou Electric Power Test & Research Institute, China Southern Power Grid, Guiyang 550002, ChinaGuizhou Electric Power Test & Research Institute, China Southern Power Grid, Guiyang 550002, ChinaThe magnetoelectric (ME) composite with the flux concentration effect is designed, fabricated, and characterized for detecting weak ac magnetic-field. The high-permeability Fe73.5Cu1Nb3Si13.5B9 (FeCuNbSiB) foils act as flux concentrators and are bonded at the free ends of traditional ME laminates. With the improved ME responses in the proposed ME composite based on the flux concentration effect, the output sensitivities under zero-biased magnetic field can reach 7 V/Oe and 15.8 mV/Oe under the resonance frequency of 177.36 kHz and the off-resonance frequency of 1 kHz, respectively. The results indicate that the proposed ME composites show promising applications for high-sensitivity self-biased magnetic field sensors and ME transducers.http://dx.doi.org/10.1063/1.4917493
collection DOAJ
language English
format Article
sources DOAJ
author Hao Zhang
Caijiang Lu
Changbao Xu
Yingjie Xiao
Junguo Gui
Chenhui Lin
Yong Xiao
spellingShingle Hao Zhang
Caijiang Lu
Changbao Xu
Yingjie Xiao
Junguo Gui
Chenhui Lin
Yong Xiao
Improved magnetoelectric effect in magnetostrictive/piezoelectric composite with flux concentration effect for sensitive magnetic sensor
AIP Advances
author_facet Hao Zhang
Caijiang Lu
Changbao Xu
Yingjie Xiao
Junguo Gui
Chenhui Lin
Yong Xiao
author_sort Hao Zhang
title Improved magnetoelectric effect in magnetostrictive/piezoelectric composite with flux concentration effect for sensitive magnetic sensor
title_short Improved magnetoelectric effect in magnetostrictive/piezoelectric composite with flux concentration effect for sensitive magnetic sensor
title_full Improved magnetoelectric effect in magnetostrictive/piezoelectric composite with flux concentration effect for sensitive magnetic sensor
title_fullStr Improved magnetoelectric effect in magnetostrictive/piezoelectric composite with flux concentration effect for sensitive magnetic sensor
title_full_unstemmed Improved magnetoelectric effect in magnetostrictive/piezoelectric composite with flux concentration effect for sensitive magnetic sensor
title_sort improved magnetoelectric effect in magnetostrictive/piezoelectric composite with flux concentration effect for sensitive magnetic sensor
publisher AIP Publishing LLC
series AIP Advances
issn 2158-3226
publishDate 2015-04-01
description The magnetoelectric (ME) composite with the flux concentration effect is designed, fabricated, and characterized for detecting weak ac magnetic-field. The high-permeability Fe73.5Cu1Nb3Si13.5B9 (FeCuNbSiB) foils act as flux concentrators and are bonded at the free ends of traditional ME laminates. With the improved ME responses in the proposed ME composite based on the flux concentration effect, the output sensitivities under zero-biased magnetic field can reach 7 V/Oe and 15.8 mV/Oe under the resonance frequency of 177.36 kHz and the off-resonance frequency of 1 kHz, respectively. The results indicate that the proposed ME composites show promising applications for high-sensitivity self-biased magnetic field sensors and ME transducers.
url http://dx.doi.org/10.1063/1.4917493
work_keys_str_mv AT haozhang improvedmagnetoelectriceffectinmagnetostrictivepiezoelectriccompositewithfluxconcentrationeffectforsensitivemagneticsensor
AT caijianglu improvedmagnetoelectriceffectinmagnetostrictivepiezoelectriccompositewithfluxconcentrationeffectforsensitivemagneticsensor
AT changbaoxu improvedmagnetoelectriceffectinmagnetostrictivepiezoelectriccompositewithfluxconcentrationeffectforsensitivemagneticsensor
AT yingjiexiao improvedmagnetoelectriceffectinmagnetostrictivepiezoelectriccompositewithfluxconcentrationeffectforsensitivemagneticsensor
AT junguogui improvedmagnetoelectriceffectinmagnetostrictivepiezoelectriccompositewithfluxconcentrationeffectforsensitivemagneticsensor
AT chenhuilin improvedmagnetoelectriceffectinmagnetostrictivepiezoelectriccompositewithfluxconcentrationeffectforsensitivemagneticsensor
AT yongxiao improvedmagnetoelectriceffectinmagnetostrictivepiezoelectriccompositewithfluxconcentrationeffectforsensitivemagneticsensor
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