磁电复合材料:建模与应用

M. Bichurin, R. Petrov, A. Tatarenko
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引用次数: 5

摘要

电子技术的进步与材料科学的进步是直接相关的。在当今可用的广泛材料类别中,功能材料为开发新型组件和设备提供了独特的机会,因为它们具有物理和化学特性。铁磁材料和铁电材料的结合提供了一类新的功能材料,称为磁电材料。介绍了现代磁电复合材料的概况和基于它们的电子器件的设计实例。这些材料的特点是在外加磁场和电场的作用下,其参数会发生变化。考虑了磁电复合材料在宽频率范围内的行为。在低频和机电、铁磁和磁声共振领域对ME复合材料的建模表明,它们可以有效地用于设计宽频率范围内的各种电子器件。提出了一种可用于绘制ME参数与初始材料参数和组分体积分数关系的Nomographs方法。Nomographs可用于ME复合材料的快速测试,用于近似答案合适且有用的应用。介绍了ME复合材料在磁场传感器、电流传感器、微波移相器、滤波器、衰减器、隔离器等方面的应用实例。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Magnetoelectric Composites: Modeling and Application
The progress in electronic technology is directly coupled with the advances made in materials science. Within the broad class of materials available today, functional materials provide unique opportunity for developing novel components and devices as their physical and chemical properties. A combination of ferromagnetic and ferroelectric materials provides a new class of functional materials, termed as magnetoelectrics. An overview of modern magnetoelectric composites and examples of the design of electronic devices based on them are presented. The feature of these materials is that their parameters changes under the influence of an external magnetic and electric fields. The behavior of magnetoelectric composites in the wide frequency range is considered. Modeling of ME composites at low frequencies and in the field of electromechanical, ferromagnetic and magnetoacoustic resonances has shown that they can be effectively used to design various electronic devices in a wide frequency range. Nomographs method which can be used to plot the ME parameters versus initial material parameters and component volume fractions is presented. Nomographs can be used for a quick test of ME composites for applications where an approximate answer is appropriate and useful. Examples of ME composites application such as: magnetic field sensors, current sensors, microwave phase shifters, filters, attenuators, isolators are presented.
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