铁电性 meaning in Chinese
ferroelectricity
Examples
- This paper investigated the preparation and properties of multiferroelectric magnetoelectric lcmto bulk and film which keeps substitution each other between la and ca as well as mn and ti
本文就la 、 ca和mn 、 ti离子共掺的lcmto复铁电性的磁电子材料及薄膜的制备和性能进行研究。 - When the time of heat preservation prolonged , the intensity of most orientation of perovskite phase became stronger , and the full width at half maximum ( fwhm ) decreased . when the time of heat preservation was 80 seconds , the intensity of ( 100 ) and ( 110 ) orientation began to decrease
循环次数从1次增加到3次, plt薄膜的( 100 )和( 200 )峰的衍射强度逐渐增强,薄膜的结晶性提高,铁电性能逐渐增强,循环4次溅射后,薄膜的结晶性和铁电性开始下降。 - The substitution of a - site cation ln can induce significant effect on the magnetization and polarization , nevertheless b - site cation can induce more effect on the polarization of perovskite structure . as a result , the doping of titanate which had typical high dielectric behavior would have significant effect on the research and development of novel multiferroelectric magnetoelectric material
A位离子ln的取代可以对材料的磁化性能和极化性能产生影响,然而由于b位离子对钙钛矿结构的极化可能产生更大的作用,因而具有典型高介电行为的含ti钙钛矿结构的引入将可能对新型复铁电性的磁电子材料的开发研究产生很大的影响并具有非常重要的科学意义。 - The application of radio frequency magneto - controlled sputtering was introduced briefly . in this research , multiferroelectric magnetoelectric lcmto with excellect crystal and electric properties which keeps substitution each other between la and ca as well as mn and ti were prepared by traditional ceramic process , and the film was prepared by radiofrequency magneto - controlled sputtering
本研究中采用传统的陶瓷烧结方法及射频磁控溅射技术成功制备了具有优良结晶性能和电性能的la 、 ca和mn 、 ti离子共掺的lcmto复铁电性的磁电子材料及薄膜。 - The main points of this dissertation consist the following points : l . this dissertation has summarized basal theory and app . l ication prospect of ferroelectric liquid crystal , ferroelectric liquid crystal polymer and chiral additive . a kind of chiral additive of liquid crystal and two kinds of polyacrylates were designed here . 2
本论文在绪论中总结了小分子铁电性液晶、高分子铁电性液晶及手性添加剂等液晶的基本理论与应用前景,并设计了一种液晶手性添加剂,两种丙烯酸酯型聚合物。