The Study of the Distribution of Electrical and Magnetic Properties over the Conductor Cross-Section Using Magnetoimpedance Tomography: Modeling and Experiment

Bukreev, D. A.; Derevyanko, M. S.; Moiseev, A. A.; Svalov, A. V.; Semirov, A. V.

doi:10.3390/s22239512

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Название:	The Study of the Distribution of Electrical and Magnetic Properties over the Conductor Cross-Section Using Magnetoimpedance Tomography: Modeling and Experiment
Авторы:	Bukreev, D. A. Derevyanko, M. S. Moiseev, A. A. Svalov, A. V. Semirov, A. V.
Дата публикации:	2022
Издатель:	MDPI
Библиографическое описание:	Bukreev, DA, Derevyanko, MS, Moiseev, AA, Svalov, AV & Semirov, AV 2022, 'The Study of the Distribution of Electrical and Magnetic Properties over the Conductor Cross-Section Using Magnetoimpedance Tomography: Modeling and Experiment', Sensors, Том. 22, № 23, 9512. https://doi.org/10.3390/s22239512 Bukreev, D. A., Derevyanko, M. S., Moiseev, A. A., Svalov, A. V., & Semirov, A. V. (2022). The Study of the Distribution of Electrical and Magnetic Properties over the Conductor Cross-Section Using Magnetoimpedance Tomography: Modeling and Experiment. Sensors, 22(23), [9512]. https://doi.org/10.3390/s22239512
Аннотация:	A description of the method of magnetoimpedance tomography is presented. This method is based on the analysis of the frequency dependences of the impedance obtained in magnetic fields of various strengths. It allows one to determine the distribution of electrical and magnetic properties over the cross-section of the conductor, as well as their dependence on the magnetic field. The article proposes a specific approach to the implementation of the magnetoimpedance tomography method based on computer modeling by the finite element method. The results of this method are presented for composite Cu98Be2/Fe20Co6Ni74 wires of the “highly conductive core–magnetically soft coating” type and amorphous rapidly quenched Co66Fe4Nb2.5Si12.5B15 wires. © 2022 by the authors.
Ключевые слова:	AMORPHOUS MAGNETICALLY SOFT ALLOYS COMPUTER SIMULATION FINITE ELEMENT METHOD MAGNETOIMPEDANCE EFFECT COMPUTER SIMULATION ELECTRIC CONDUCTIVITY ELECTRIC IMPEDANCE MAGNETICS TOMOGRAPHY BORON COMPOUNDS COBALT COMPOUNDS FINITE ELEMENT METHOD IRON COMPOUNDS MAGNETIC FIELDS MAGNETIC PROPERTIES NIOBIUM COMPOUNDS SILICON SILICON COMPOUNDS AMORPHOUS MAGNETICALLY SOFT ALLOY COMPUTER MODELS ELECTRICAL AND MAGNETIC PROPERTY FREQUENCIES DEPENDENCE MAGNETIC-FIELD MAGNETO-IMPEDANCE MAGNETO-IMPEDANCE EFFECTS MAGNETOIMPEDANCE MODELLING AND EXPERIMENTS TOMOGRAPHY METHODS COMPUTER SIMULATION ELECTRIC CONDUCTIVITY IMPEDANCE MAGNETISM TOMOGRAPHY TOMOGRAPHY
URI:	http://elar.urfu.ru/handle/10995/131478
Условия доступа:	info:eu-repo/semantics/openAccess cc-by
Текст лицензии:	https://creativecommons.org/licenses/by/4.0/
Идентификатор SCOPUS:	85143841431
Идентификатор WOS:	000896179800001
Идентификатор PURE:	32885756 ddaff907-e0f5-4d83-9729-42db2e1b79b2
ISSN:	1424-8220
DOI:	10.3390/s22239512
Сведения о поддержке:	Russian Science Foundation, RSF, (22-22-00709) The modeling and measurements of the impedance were carried out at the Irkutsk State University and supported by the Russian Scientific Foundation (grant no. 22-22-00709, https://rscf.ru/project/22-22-00709/ (accessed on 1 December 2022).
Карточка проекта РНФ:	22-22-00709
Располагается в коллекциях:	Научные публикации ученых УрФУ, проиндексированные в SCOPUS и WoS CC

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