The Study of Magnetoimpedance Effect for Magnetoelectric Laminate Composites with Different Magnetostrictive Layers
The rectangular magnetoelectric (ME) composites of Metglas/PZT and Terfenol-D/PZT are prepared, and the effects of a magnetostrictive layer’s material characteristics on the magnetoimpedance of ME composite are discussed and experimentally investigated. The theoretical analyses show that the impedan...
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2021
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oai:doaj.org-article:34ca31530c194acb8f2f7033124762732021-11-11T17:58:34ZThe Study of Magnetoimpedance Effect for Magnetoelectric Laminate Composites with Different Magnetostrictive Layers10.3390/ma142163971996-1944https://doaj.org/article/34ca31530c194acb8f2f7033124762732021-10-01T00:00:00Zhttps://www.mdpi.com/1996-1944/14/21/6397https://doaj.org/toc/1996-1944The rectangular magnetoelectric (ME) composites of Metglas/PZT and Terfenol-D/PZT are prepared, and the effects of a magnetostrictive layer’s material characteristics on the magnetoimpedance of ME composite are discussed and experimentally investigated. The theoretical analyses show that the impedance is not only dependent on Young’s modulus and the magnetostrictive strain of magnetostrictive material but is also influenced by its relative permeability. Compared with Terfenol-D, Metglas possesses significantly higher magnetic permeability and larger magnetostrictive strain at quite low H<sub>dc</sub> due to the small saturation field, resulting in the larger magnetoimpedance ratio. The experimental results demonstrate that the maximum magnetoimpedance ratios (i.e., ΔZ/Z) of Metglas/PZT composite are about 605.24% and 239.98% at the antiresonance and resonance, respectively. Specifically, the maximum ΔZ/Z of Metglas/PZT is 8.6 times as high as that of Terfenol-D/PZT at the antiresonance. Such results provide the fundamental guidance in the design and fabrication of novel multifunction devices based on the magnetoimpedance effect of ME composites.Lei ChenYao WangTianhong LuoYongkang ZouZhongjie WanMDPI AGarticlemagnetostrictive materialmagnetoimpedance effectmagnetostrictive strainmagnetic permeabilityYoung’s modulusmagnetoelectric compositeTechnologyTElectrical engineering. Electronics. Nuclear engineeringTK1-9971Engineering (General). Civil engineering (General)TA1-2040MicroscopyQH201-278.5Descriptive and experimental mechanicsQC120-168.85ENMaterials, Vol 14, Iss 6397, p 6397 (2021) |
| institution |
DOAJ |
| collection |
DOAJ |
| language |
EN |
| topic |
magnetostrictive material magnetoimpedance effect magnetostrictive strain magnetic permeability Young’s modulus magnetoelectric composite Technology T Electrical engineering. Electronics. Nuclear engineering TK1-9971 Engineering (General). Civil engineering (General) TA1-2040 Microscopy QH201-278.5 Descriptive and experimental mechanics QC120-168.85 |
| spellingShingle |
magnetostrictive material magnetoimpedance effect magnetostrictive strain magnetic permeability Young’s modulus magnetoelectric composite Technology T Electrical engineering. Electronics. Nuclear engineering TK1-9971 Engineering (General). Civil engineering (General) TA1-2040 Microscopy QH201-278.5 Descriptive and experimental mechanics QC120-168.85 Lei Chen Yao Wang Tianhong Luo Yongkang Zou Zhongjie Wan The Study of Magnetoimpedance Effect for Magnetoelectric Laminate Composites with Different Magnetostrictive Layers |
| description |
The rectangular magnetoelectric (ME) composites of Metglas/PZT and Terfenol-D/PZT are prepared, and the effects of a magnetostrictive layer’s material characteristics on the magnetoimpedance of ME composite are discussed and experimentally investigated. The theoretical analyses show that the impedance is not only dependent on Young’s modulus and the magnetostrictive strain of magnetostrictive material but is also influenced by its relative permeability. Compared with Terfenol-D, Metglas possesses significantly higher magnetic permeability and larger magnetostrictive strain at quite low H<sub>dc</sub> due to the small saturation field, resulting in the larger magnetoimpedance ratio. The experimental results demonstrate that the maximum magnetoimpedance ratios (i.e., ΔZ/Z) of Metglas/PZT composite are about 605.24% and 239.98% at the antiresonance and resonance, respectively. Specifically, the maximum ΔZ/Z of Metglas/PZT is 8.6 times as high as that of Terfenol-D/PZT at the antiresonance. Such results provide the fundamental guidance in the design and fabrication of novel multifunction devices based on the magnetoimpedance effect of ME composites. |
| format |
article |
| author |
Lei Chen Yao Wang Tianhong Luo Yongkang Zou Zhongjie Wan |
| author_facet |
Lei Chen Yao Wang Tianhong Luo Yongkang Zou Zhongjie Wan |
| author_sort |
Lei Chen |
| title |
The Study of Magnetoimpedance Effect for Magnetoelectric Laminate Composites with Different Magnetostrictive Layers |
| title_short |
The Study of Magnetoimpedance Effect for Magnetoelectric Laminate Composites with Different Magnetostrictive Layers |
| title_full |
The Study of Magnetoimpedance Effect for Magnetoelectric Laminate Composites with Different Magnetostrictive Layers |
| title_fullStr |
The Study of Magnetoimpedance Effect for Magnetoelectric Laminate Composites with Different Magnetostrictive Layers |
| title_full_unstemmed |
The Study of Magnetoimpedance Effect for Magnetoelectric Laminate Composites with Different Magnetostrictive Layers |
| title_sort |
study of magnetoimpedance effect for magnetoelectric laminate composites with different magnetostrictive layers |
| publisher |
MDPI AG |
| publishDate |
2021 |
| url |
https://doaj.org/article/34ca31530c194acb8f2f703312476273 |
| work_keys_str_mv |
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