钛酸钡就是一种典型的位移型铁电体。
钛酸钡是应用和研究最多的铁电体之一。
BaTiO3 is one of most widely used ferroelectric materials and has been extensively studied.
铁电体是一类重要的功能材料,电畴是其物理基础。
Ferroelectrics based on ferroelectric domains is one of the most important functional materials.
具有不同居里点的两种铁电体粉末在共烧时会产生过渡相。
The transitional phase appeared when two ferroelectric powders with different Curie point were mixed and sintered together.
钙钛矿结构铌镁酸铅(PMN)是弛豫铁电体的典型代表。
Perovskite type lead magnesium niobate (PMN) is a relaxor ferroelectric.
本文综述了铅基复合钙钛矿型驰豫铁电体介电理论研究进展。
This paper reviews the development of dielectric theory for head based relaxor ferroelectrics with complex perovskite structure.
简要地介绍弛豫型铁电体的扩散相变和超顺电等理论研究的最新进展。
New progress in basic research of diffusion phase transitions and superparaelectricstate etc. on relaxor ferroelectrics are briefly presented.
计算方法和结果能够为起爆金属桥箔的铁电体电源设计提供理论根据。
The calculation and results provide a theoretical basis to design the ferroelectric power supply initiating metal bridge foil.
在相同的频率条件下,弛豫铁电体的结构起伏程度越大,弛豫程度越低。
The larger the structural fluctuation of RFE was, the lower the relaxation degree was in the same frequency condition.
本文总结了近几年来用格林函数方法研究氢键铁电体相变所取得的一些进展。
In this paper, our study on the hydrogen-bond ferroelectrics with Green's function method is reviewed.
利用配有电压自动衰减电路的铁电材料测试系统测量了PZT铁电体材料样品的电滞回线。
The PZT ferroelectric slice sample was measured by the system with the automatic voltage-decaying circuit, and hysteresis loops of the sample was exhibited.
拟合结果表明,考虑薄膜尺寸及厚度影响的结果优于将铁电体视为无限大的KA理论的结果。
Fitting results indicate that theory taking into account the thickness of the ferroelectric thin film is better than the KA model.
畴变具有一定速度,畴变速率对铁电体的非线性响应和频率相关响应等性质起到重要的作用。
The rate of domain switching plays an important role in the nonlinear behavior and properties that are frequency dependent.
对铁电体进行理论研究的最终目的是要实现材料设计,即根据所需要的性能设计材料的组成或根据组成预测其性质。
Materials design means designing form and property base on performance needed, which is the ultimate aim of the theory research on ferroelectrics materials.
钙钛矿型铁电体材料是电子陶瓷中便用最广泛的材料,对其进行理论研究不仅具有重要的学术意义,而且也有一定的应用价值。
Ferroelectrics materials of perovskite type are the subjects of extensive investigation both because of the fundamental interest in theory research and application importance.
采用爆炸冲击波作用于贮存有电极化能量的铁电体,迫使其转变成反铁电体,可释放出巨大电能量,用于一次性的高压、大功率脉冲电源。
A ferroelectrics could release total electric polarization energy during it is transformed to antiferroelectrics, and that was used to high electrical power supply.
采用爆炸冲击波作用于贮存有电极化能量的铁电体,迫使其转变成反铁电体,可释放出巨大电能量,用于一次性的高压、大功率脉冲电源。
A ferroelectrics could release total electric polarization energy during it is transformed to antiferroelectrics, and that was used to high electrical power supply.
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