1) ferroelectric SBT
铁电性SBT
1.
Composite materials,consisting of ferroelectric SBT and ferromagnetic NiCuZn ferrite,have been successfully prepared by solid state reaction method.
采用固相法成功制备了铁电性SBT和铁磁性NiCuZn铁氧体的复合材料。
2) SBT ferroelectric thin films
SBT铁电薄膜
3) ferroelectric-ferromagnetic
铁电-铁磁性
4) ferroelectricity
[,ferəi,lek'trisiti]
铁电性
1.
Thickness Dependence of Ferroelectricity in Hemicyanine Langmuir- Blodgett Multilayer Films;
半花菁染料LB膜的铁电性与厚度关系
2.
Study of ferroelectricity in organic functional ultrathin films;
有机功能超薄膜铁电性研究进展
3.
With decreasing grain sizes,its crystal structure、ferroelectricity and phase transition temperature all indicated the character of size effect.
随着晶粒尺寸的减小,它的晶体结构、铁电性和相变温度等都表现出尺寸效应。
5) ferroelectric property
铁电性能
1.
The results show that PZT film etched by the concentration BOE/HNO3/CH3COOH /HCl/NH4Cl/EDTA can obtain exact figure and good ferroelectric property.
采用典型的半导体光刻工艺,通过研究不同的刻蚀剂对PZT薄膜的化学刻蚀效果表明,利用BOE/HNO3/CH3COOH/HCl/NH4Cl/EDTA刻蚀液刻蚀PZT薄膜可得图形质量及铁电性能良好的铁电电容,能满足铁电存储器对铁电薄膜微图形化要求。
2.
The ferroelectric property of thin films has been improved with rising of annealing temperature.
对其铁电性能以及复合材料的阻尼性能进行了测试,结果表明,退火温度的升高有利于改善薄膜的铁电性能,在750℃下退火的Pb(Zr0。
3.
Compared with the higher-valent cation doping(V,Nb),Zr 4+ and Hf 4+ substitution can also improve the ferroelectric property of SBTi.
与B位高价掺杂(V,Nb)相比,等价的Zr和Hf掺杂同样可以提高SBTi陶瓷的铁电性能,随着掺杂量的增加,SrBi4Ti4-xZrxO15(SBTZ)和SrBi4Ti4-xHfxO15(SBTH)样品的剩余极化(2Pr)先增大后减小,在x=0。
6) ferroelectric properties
铁电性能
1.
Effect of La doping on ferroelectric properties of Bi_4Ti_3O_(12) thin film;
La掺杂对Bi_4Ti_3O_(12)薄膜铁电性能的影响
2.
Effects of neodymium doping on microstructures and ferroelectric properties of bismuth titanate ferroelectric thin films;
Nd掺杂对Bi_4Ti_3O_(12)铁电薄膜的微结构和铁电性能的影响
3.
Effect of annealing pressure on the structure and ferroelectric properties of Bi_(3.25)La_(0.75)Ti_3O_(12) thin films
退火气压对Bi_(3.25)La_(0.75)Ti_3O_(12)铁电薄膜的微观结构和铁电性能的影响
补充资料:非压电性铁电体
分子式:
CAS号:
性质: 在顺电相状态不显示压电性的晶体,如钛酸钡和钛酸铅等晶体。这类材料各种性能较好。以它们为基础的多种压电材料、半导体陶瓷、热敏陶瓷和热释电陶瓷等都是。应用范围广泛。
CAS号:
性质: 在顺电相状态不显示压电性的晶体,如钛酸钡和钛酸铅等晶体。这类材料各种性能较好。以它们为基础的多种压电材料、半导体陶瓷、热敏陶瓷和热释电陶瓷等都是。应用范围广泛。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条