Magnetostrictive alloys: Promising materials for biomedical applications

Magnetostrictive alloys have attracted increasing attention in biomedical applications because of the ability to generate reversible deformation in the presence of external magnetic fields. This review focuses on the advances in magnetostrictive alloys and their biomedical applications. The theories...

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Autores principales: Chengde Gao, Zihao Zeng, Shuping Peng, Cijun Shuai
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Lenguaje:EN
Publicado: KeAi Communications Co., Ltd. 2022
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Acceso en línea:https://doaj.org/article/73b5be1513464931abd459a957e3643b
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spelling oai:doaj.org-article:73b5be1513464931abd459a957e3643b2021-11-04T04:35:52ZMagnetostrictive alloys: Promising materials for biomedical applications2452-199X10.1016/j.bioactmat.2021.06.025https://doaj.org/article/73b5be1513464931abd459a957e3643b2022-02-01T00:00:00Zhttp://www.sciencedirect.com/science/article/pii/S2452199X2100311Xhttps://doaj.org/toc/2452-199XMagnetostrictive alloys have attracted increasing attention in biomedical applications because of the ability to generate reversible deformation in the presence of external magnetic fields. This review focuses on the advances in magnetostrictive alloys and their biomedical applications. The theories of magnetostriction are systematically summarized. The different types of magnetostrictive alloys and their preparation methods are also reviewed in detail. The magnetostrictive strains and phase compositions of typical magnetostrictive alloys, including iron based, rare-earth based and ferrite materials, are presented. Besides, a variety of approaches to preparing rods, blocks and films of magnetostriction materials, as well as the corresponding methods and setups for magnetostriction measurement, are summarized and discussed. Moreover, the interactions between magnetostrictive alloys and cells are analyzed and emphasis is placed on the transduction and transformation process of mechanochemical signals induced by magnetostriction. The latest applications of magnetostrictive alloys in remote microactuators, magnetic field sensors, wireless implantable devices and biodegradable implants are also reviewed. Furthermore, future research directions of magnetostrictive alloys are prospected with focus on their potential applications in remote cell actuation and bone repair.Chengde GaoZihao ZengShuping PengCijun ShuaiKeAi Communications Co., Ltd.articleMagnetostriction alloysMagnetostriction theoriesPreparation techniquesMeasurement methodsBiomedical applicationsMaterials of engineering and construction. Mechanics of materialsTA401-492Biology (General)QH301-705.5ENBioactive Materials, Vol 8, Iss , Pp 177-195 (2022)
institution DOAJ
collection DOAJ
language EN
topic Magnetostriction alloys
Magnetostriction theories
Preparation techniques
Measurement methods
Biomedical applications
Materials of engineering and construction. Mechanics of materials
TA401-492
Biology (General)
QH301-705.5
spellingShingle Magnetostriction alloys
Magnetostriction theories
Preparation techniques
Measurement methods
Biomedical applications
Materials of engineering and construction. Mechanics of materials
TA401-492
Biology (General)
QH301-705.5
Chengde Gao
Zihao Zeng
Shuping Peng
Cijun Shuai
Magnetostrictive alloys: Promising materials for biomedical applications
description Magnetostrictive alloys have attracted increasing attention in biomedical applications because of the ability to generate reversible deformation in the presence of external magnetic fields. This review focuses on the advances in magnetostrictive alloys and their biomedical applications. The theories of magnetostriction are systematically summarized. The different types of magnetostrictive alloys and their preparation methods are also reviewed in detail. The magnetostrictive strains and phase compositions of typical magnetostrictive alloys, including iron based, rare-earth based and ferrite materials, are presented. Besides, a variety of approaches to preparing rods, blocks and films of magnetostriction materials, as well as the corresponding methods and setups for magnetostriction measurement, are summarized and discussed. Moreover, the interactions between magnetostrictive alloys and cells are analyzed and emphasis is placed on the transduction and transformation process of mechanochemical signals induced by magnetostriction. The latest applications of magnetostrictive alloys in remote microactuators, magnetic field sensors, wireless implantable devices and biodegradable implants are also reviewed. Furthermore, future research directions of magnetostrictive alloys are prospected with focus on their potential applications in remote cell actuation and bone repair.
format article
author Chengde Gao
Zihao Zeng
Shuping Peng
Cijun Shuai
author_facet Chengde Gao
Zihao Zeng
Shuping Peng
Cijun Shuai
author_sort Chengde Gao
title Magnetostrictive alloys: Promising materials for biomedical applications
title_short Magnetostrictive alloys: Promising materials for biomedical applications
title_full Magnetostrictive alloys: Promising materials for biomedical applications
title_fullStr Magnetostrictive alloys: Promising materials for biomedical applications
title_full_unstemmed Magnetostrictive alloys: Promising materials for biomedical applications
title_sort magnetostrictive alloys: promising materials for biomedical applications
publisher KeAi Communications Co., Ltd.
publishDate 2022
url https://doaj.org/article/73b5be1513464931abd459a957e3643b
work_keys_str_mv AT chengdegao magnetostrictivealloyspromisingmaterialsforbiomedicalapplications
AT zihaozeng magnetostrictivealloyspromisingmaterialsforbiomedicalapplications
AT shupingpeng magnetostrictivealloyspromisingmaterialsforbiomedicalapplications
AT cijunshuai magnetostrictivealloyspromisingmaterialsforbiomedicalapplications
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