1) Electrical anisotropy
电各向异性
1.
Electrical anisotropy of formation is the one of important research areas in anisotropy.
地层的电各向异性是各向异性的重要研究领域之一。
2) negative dielectric anisotropy
负介电各向异性
1.
New type of liquid crystals such as laterally fluorinated naphthalene indane,axially fluorinated cyclohexane and liquid crystal containing highly fluorinated substituent,which with high negative dielectric anisotropy、low viscosity and high clearing point were emphasized.
综述了VA-TFT(垂直取向薄膜晶体管驱动)用负介电各向异性液晶的结构及性质。
2.
Liquid crystal materials with negative dielectric anisotropy are widely used in LCD, such as DSECBGHFLCPDLCVA-TFTMDVA-TFT modes.
负介电各向异性 ( -△ε)液晶广泛应用于DS、ECB、GH、FLC、PDLC、VA -TFT、MDVA -TFT等模式的液晶显示中。
3.
The structures,properties and applications of laterally fluorinated negative dielectric anisotropy liquid crystal compounds are reviewed.
对环上氟取代负介电各向异性液晶的结构、性质和应用作了论述。
3) resistivity anisotropy
电阻率各向异性
1.
Research the resistivity anisotropy in horizontal well by known resistivity information of vertical well,to get the real resistivity of the formation in horizontal well.
采用3层水平层状介质模型来模拟水平井中的地层,利用已知的垂直井电阻率信息来研究相应水平井地层的电阻率各向异性。
4) anisotropic conductive adhesive
各向异性导电胶
1.
Preparation of a novel conductive composite particle for anisotropic conductive adhesive;
各向异性导电胶用新型导电复合粒子的制备
2.
Progress of Anisotropic Conductive Adhesive for Flip Chip Packaging;
倒装芯片封装材料—各向异性导电胶的研究进展
3.
With the development of microelectronic packaging technologies,anisotropic conductive adhesives(ACA)are widely used as one kind of the green materials in the electronic interconnection.
随着微电子封装技术的发展,各向异性导电胶作为一种绿色的连接材料,广泛应用于电子产品中。
5) Dielectric anisotropy
介电各向异性
1.
In this paper, the advantages of these compounds are summarized, showing that naphthalene derivative is useful for preparing a liquid crystal composition with a wide temperature range of nematic phase, very large dielectric anisotropy and a small birefringence, thereby being driven at a low voltage, and suitable for high performance STN.
大量文献数据表明其可加宽混合液晶的向列相温度范围;增大介电各向异性;降低阈值电压以及调节适宜的双折射率,适用于超扭曲向列型(STN型),薄膜晶体管型(TFT型)等高性能液晶材料。
2.
This paper has discussed the effect of the moleculer conjugate π-electrons on the dielectric anisotropy of liquid crystal materials.
本文详细讨论分子中共轭π电子对液晶材料介电各向异性的影响。
3.
The coupling effects of electric fields to dielectric tensor as well as the surface anchoring forces due to alignment layers are included in the model by equivalent current sources to make it has the capability in optical response prediction and dynamic analysis when dielectric anisotropy of FLC is of a relatively.
通过将介电张量与电场的耦合作用和由表面定向层引起的锚定能量以等效源的形式表达在电路模型中,成功地将模型拓展到介电各向异性情况下。
6) AMR
各向异性磁电阻
1.
Study on AMR Properties of Ni_(65)Co_(35) Thin Films;
Ni_(65)Co_(35)薄膜各向异性磁电阻性能的研究
2.
A “mixed” effect of the free and pinned layers on anisotropic magnetoresistance (AMR) has been obtserved.
结果表明 ,在样品中存在着自由层和被钉扎层之间的各向异性磁电阻的“混合”效应 。
3.
The zero field resistivity (ρ), anisotropy magnetoresistance (AMR) and microstructures for both as-grown and post-annealed films are measured.
5nm)/Ni82Fe18(tnm)/Ta(3nm)坡莫合金系列膜,并进行了中温退火(200°C),测量了退火前后样品的零场电阻率(ρ),各向异性磁电阻(AMR)和微结构;从实验角度研究了中温退火对ρ和AMR随NiFe厚度(t)变化的影响,并探讨了该影响的微观机制。
补充资料:各向异性
分子式:
CAS号:
性质:晶体内部微粒具有规则的晶格结构,故其物理性质随方向而不同,表现出各向异性的特点。如石墨层平行方向上电导率比垂直方向大一万倍,故不同方向导电性不同。
CAS号:
性质:晶体内部微粒具有规则的晶格结构,故其物理性质随方向而不同,表现出各向异性的特点。如石墨层平行方向上电导率比垂直方向大一万倍,故不同方向导电性不同。
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