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.
普通的陶瓷元件分别是钛酸钡和锆钛酸铅。
Common ceramic elements are barium titanate and lead zirconate - titanate.
普通的陶瓷元件分别是钛酸钡和锆钛酸铅。
Common ceramic elements are barium titanate and lead zirconate-titanate.
本文就钛酸钡陶瓷粉体的制备技术作了综合评述。
The paper reviewed synthesis techniques of BaTiO 3 ceramic powder.
掺杂钛酸钡陶瓷的烧结包括固-固烧结和液-固烧结。
The sintering of the dopedbariumtitanate include solid-solid sintering and solid-liquid sintering.
采用冷压陶瓷处理技术制备了高介电率钛酸钡陶瓷材料。
The cold-pressing ceramic processing technique was used to prepare high-permittivity Barium Titanate ceramics.
本研究应用冷压陶瓷处理技术制备了钛酸钡陶瓷片材料。
The cold-pressing ceramic processing technique was used in this research to prepare Barium Titanate ceramic disk.
钛酸钡陶瓷因为其优异的性能应用广泛,被国内外广泛关注。
Barium titanate ceramics have been the focus because of the excellent properties, and been applied in many fields.
钛酸钡粉体的制备方法及掺杂方式对陶瓷的电学性质有很大影响。
The preparation and doping method influences the electrical properties of barium titanate strongly.
施主掺杂的钛酸钡陶瓷的PT CR效应来源于晶界上的钡空位。
Barium vacancy existed in grain boundary is responsible for the PTCR effect observed in donor doped barium titanate ceramics.
钛酸钡粉体和陶瓷的制备,及其性能优化的研究成为当下的热点。
Such, the studies on preparation of barium titanate powder and ceramics have been widely carried out nowadays.
钛酸钡作为一种典型的铁电材料,往往被用来研究铁电相关特性。
As a typical ferroelectrics, BaTiO3 is always is used to study feathers of ferroelectric.
我们通过对计算结果的分析,观察到了钛酸钡薄膜明显的表面效应。
Obvious surface effect can be observed through the analysis of simulation results.
本文从实验和理论上对钛酸钡铁电临界尺寸的研究进展进行了综述。
Through experiment and theory, the progress in research on the ferroelectric critical grain size of BaTiO3 is reviewed in this paper.
用复阻抗法对硅衬底纳米钛酸钡湿敏元件的感湿机理进行了分析讨论。
Complex impendence techniques are used to analyze the humidity sensing mechanism of nanometer barium titanate humidity sensors on silicon substrate.
钛酸钡半导体陶瓷是功能陶瓷中应用最广泛和研究得比较透彻的电子材料。
ABSTRACT Barium titanate semiconductive ceramics are the electronics materials used most widely and researched most deeply in functional ceramics.
在钛酸钡含量较高时,少量羰基铁粉的加入就造成了介电损耗的急剧上升。
In a high level with barium titanate, the small amount by addition of carbonyl iron resulted in the sharp rise on dielectric loss.
钛酸钡半导体陶瓷是功能陶瓷中应用最广泛和研究得比较透彻的电子材料。
ABSTRACT Barium titanate semiconductive ceramics are the electronics materials used most widely and researched most deeply in functional ce...
当体积百分含量超过20%时,钛酸钡的包覆提高了复合材料的吸波效能。
Contrarily, exceed 20vol% the filling to the matrix, BaTiO_3 could improve microwave absorption performance of the composite greatly.
利用球差校正电镜研究了钛酸钡的极化,猜测极化大小主要受样品厚度的影响。
Cs-corrected TEM is used to research the polarization in barium titanate. It is guessed that the polarization is mainly influenced by the thickness of the sample.
钛酸钡具有高介电常数、低的介质损耗等优异的性能,广泛地应用于电子工业中。
Barium titanate (BaTiO3) is a well-known ferroelectric material with high dielectric constant and low losses above room temperature, and it is extensively used in the electric industry.
本发明的导电胶由聚合物基体、钛酸钡陶瓷粉、稀释剂、固化剂和硅烷偶联剂制成。
The conductive adhesive is prepared by polymer matrix, barium titanate ceramic powder, diluent, curing agent and silane coupling agent.
在还原气氛烧成的条件下,部分V 5 +可以进入钛酸钡晶格,起到受主掺杂的功效。
In reducing atmosphere, part V5 + can go into the lattice of barium titanate and act as an acceptor dopant by neutralizing free electron.
钛酸钡是非常古老铁电材料之一,人们从上个世纪中后期便开始对这种材料进行了研究。
BaTiO3 is one of the most traditional ferroelectric materials, which was researched since the middle of the last century.
当晶粒尺寸减小到纳米尺度时,钛酸钡陶瓷的晶体结构在不同的温度下出现了不同的多相共存。
When particle size is reduced to the nanoscale, there are multiphase coexistences in nanocrystalline BaTiO_3 ceramics.
同样的烧结条件下,钛酸钡陶瓷的PTCR效应随b 2 O 3蒸汽掺杂源的浓度升高而升高。
Given the same sintering condition, doping with higher level of the vapor B2O3 source results in the higher PTCR effect.
同时对钛酸钡系ptcr半导瓷界面态的组成进行了研究,并提出一种直接测量界面态密度的方法。
According to defect chemistry of BaTiO3 semiconducting ceramics, the composition of the interface state was researched. Amethod of the interface state density measurement was proposed.
同时对钛酸钡系ptcr半导瓷界面态的组成进行了研究,并提出一种直接测量界面态密度的方法。
According to defect chemistry of BaTiO3 semiconducting ceramics, the composition of the interface state was researched. Amethod of the interface state density measurement was proposed.
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