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FeGa/BTO/FeGa层状复合结构中的磁电效应 被引量:2

Magnetoelectric effect in laminate composites FeGa/BTO/FeGa
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摘要 采用区域熔炼法制备了FeGa磁致伸缩材料并测量了其磁致伸缩性能。利用该材料制备了FeGa/BTO/FeGa层状复合结构,并对该样品的磁电性能进行了系统研究。结果表明.该材料在共振频率95kHz下.磁电性能高于低频下性能7~10倍。磁电电压随直流偏磁场的变化发生明显变化,出现5.97×10^1A/m的优化偏置场,这主要是由FeGa层的压磁系数q随偏磁场的变化所致。3层复合材料的磁电系数与交流驱动场变化呈线性关系。另外,较薄的BTO压电层可以提高压应力,从而获得较高的磁电性能。 After prepared in argon by induction melting, polycrystal FeGa alloy rods were prepared in directional solidification furnace. Magnetostrictive behabior has been measured by using standard strain gauges. Layered composites FeGa/BTO/FeGa were fabricated by bonding the discs of the BaTiO3 and FeGa. The magnetoelectric (ME) effect have been characterized for the transversely magnetized and transversely polarized transversetransverse (T-T) mode. Near the natural resonant frequency (ca. 95 kHz) of laminate, the ME effect were found to be dramatically increased, 7-10 larger than the properties in low frequency. The ME voltage varied evidently with magnetic bias and there existed an optimized magnetic bias 5.97×10^1A/m, due to the change of FeGa piezomagnetic coefficient q with the bias field. A linear coupling between the measured ME coefficient and Hac for laminate was observed for various magnetic biases. In addition, higher magnetoelectric coefficient can be obtained by decreasing thickness of the BTO layer.
作者 王蕾 杜兆富 范崇飞 徐立红 张洪平 赵栋梁
机构地区 钢铁研究总院功能材料研究所.北京 国家知识产权局专利审查协作中心
出处 《功能材料》 EI CAS CSCD 北大核心 2011年第B02期148-151,共4页 Journal of Functional Materials
基金 钢铁研究总院科技基金资助项目(事10020320A)
关键词 磁电效应 磁致伸缩 压电陶瓷 复合材料 magnetoelectric effect magnetostrictive alloy piezoelectricity composites
分类号 TB332 [一般工业技术—材料科学与工程]
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功能材料
2011年 第B02期

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