K. K. Patankar, S. L. Kadam, V. Mathe, C. Kanamadi, V. P. Kothawale, B. K. Chougule
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引用次数: 28
摘要
摘要研究了以掺铅钛酸钡为电组分,以Ni-Co混合铁氧体为磁性组分的磁电复合材料的介电性能和磁电性能。随着各组分摩尔比的变化,可以观察到介电性能和ME效应的变化。在含有15 mol-%铁氧体的复合材料中,ME转换因子最大值为0.42 mV cm - 1 Oe - 1(52·78 VA - 1)。铁电相含量越高,复合材料的ME效应越大。这一结论不同于早期的理论研究,后者预测在参与相的摩尔比为1:1的复合材料中有较大的ME相互作用。除了ME效应在技术上的重要性外,电场引起的磁相变中的一些异常也引起了科学的兴趣。介电性能随温度的变化产生两个最大值,对应于铁电和铁磁居里温度。这种行为不同于以前在其他ME复合材料中观察到的任何行为。
Dielectric behaviour and magnetoelectric effect in Ni0·25Co0·75Fe2O4-Ba0·8Pb0·2TiO3 ceramic composites
Abstract Dielectric and magnetoelectric properties are reported in magnetoelectric (ME) composites containing lead doped barium titanate as the electrical component and a mixed Ni-Co ferrite as the magnetic component. Changes were observed in dielectric properties as well as in the ME effect as the molar ratio of the components was varied. A maximum value of ME conversion factor of 0·42 mV cm - 1 Oe - 1 (52·78 VA - 1) was observed in the composite containing 15 mol-% ferrite. Larger ME effects were observed in composites with higher contents of ferroelectric phase. This conclusion differs from earlier theoretical studies which predict a large ME interaction in composites with a 1:1 molar ratio of participating phases. Apart from the technological importance of the ME effect, some anomalies in magnetic phase transition induced by electric fields are also of scientific interest. The variation in dielectric properties with temperature resulted in two maxima, corresponding to the ferroelectric and ferrimagnetic Curie temperatures. This behaviour is unlike anything previously observed in other ME composites.
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