Height-related magnetoelectric performance of PZT/Ni layered composites

The effect of height on performance of the PZT/Ni cylindrical bilayered magnetoelectric （ME） com- posites was studied in situ in this paper. Multiple resonant peaks appear between 1 and 300 kHz frequency for cyl- inders of different heights. The first resonance frequency does not change with the cyl...

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Veröffentlicht in:	Rare metals 2017-07, Vol.36 (7), p.591-595
Hauptverfasser:	Zuo, Zhi-Jun, Pan, De-An, Wang, Li-Jun, Tian, Jian-Jun, Zhang, Shen-Gen, Qiao, Li-Jie, Volinsky, Alex A.
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Sprache:	eng
Schlagworte:	Biomaterials Chemistry and Materials Science Composite materials Cylinders Electric potential Energy Laminates Lead zirconate titanates Materials Engineering Materials Science Metallic Materials Multilayers Nanoscale Science and Technology Particulate composites Physical Chemistry PZT Resonant frequencies 共振峰共振频率圆柱形层状复合材料电性能谐振频率
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container_issue	7
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container_title	Rare metals
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creator	Zuo, Zhi-Jun Pan, De-An Wang, Li-Jun Tian, Jian-Jun Zhang, Shen-Gen Qiao, Li-Jie Volinsky, Alex A.
description	The effect of height on performance of the PZT/Ni cylindrical bilayered magnetoelectric （ME） com- posites was studied in situ in this paper. Multiple resonant peaks appear between 1 and 300 kHz frequency for cyl- inders of different heights. The first resonance frequency does not change with the cylinder height decreasing, but the second and the third resonant frequencies increase. The first three resonant modes radial, first-order height are attributed to the cylinder resonance, and second-order height resonance, respectively. The appropriate size and resonance frequency were chosen to obtain the highest ME voltage coefficient when designing cylindrical bilayered magnetoelectric devices. This article provides reference to design cylindrical magnetoelectric devices.
doi_str_mv	10.1007/s12598-014-0374-4
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subjects	Biomaterials Chemistry and Materials Science Composite materials Cylinders Electric potential Energy Laminates Lead zirconate titanates Materials Engineering Materials Science Metallic Materials Multilayers Nanoscale Science and Technology Particulate composites Physical Chemistry PZT Resonant frequencies 共振峰共振频率圆柱形层状复合材料电性能谐振频率
title	Height-related magnetoelectric performance of PZT/Ni layered composites
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