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1)  BaTiO_3/PVDF
BaTiO3/PVDF
1.
DIELECTRIC PROPERTY OF BaTiO_3/PVDF COMPOSITE PREPARED BY A MELT PROCESS;
 用钛酸酯和钛酸丁酯偶联剂对BaTiO3粉进行表面处理,使用熔融法制备了BaTiO3/PVDF复合材料薄片。
2)  BaTiO_3
BaTiO3
1.
Using x(PbO)=55% as a flux and using BaTiO_3 as nucleation,single crystals PZNT91/9 have been successfully grown by high temperature flux method combined with bottom-cooled technique.
以55%PbO(摩尔分数)作熔剂,BaTiO3为成核剂,采用高温熔剂法加底部冷却技术成功生长了PZNT91/9单晶,其最大晶体尺寸达15 mm×13 mm。
2.
Nd~(3+) doped BaTiO_3 was synthesized by precipitation,and the electrical properties of BaTiO_3 ceramic of Ba_(1-x)Nd_xTiO_3 with different concentration(x from 0.
用共沉淀法合成了BaTiO3,研究了Ba1-xNdxTiO3系Nd3+施主一次掺杂在x=0。
3.
In order to obtain a low resistivity and high PTC effect,the Ni/Mn/BaTiO_3 composite was prepared by the traditional solid-crystal sintering method.
采用传统固相法工艺,在BaTiO3基材料中加入金属Ni、金属Mn,制备PTCR陶瓷复合材料,以降低其室温电阻率。
3)  BaTiO 3
BaTiO3
1.
Nanometer BaTiO 3 is prepared by sol gel method and used as support to prepare Ni/BaTiO 3 catalyst by impregnation method.
用溶胶 凝胶法合成出平均粒径为 30nm左右的纳米BaTiO3 ,并以其为载体通过浸渍法制备出Ni/BaTiO3 催化剂 ,该催化剂在CO2 重整CH4制合成气反应中有较高活性。
2.
Ferroelectric and dielectric properties of barium titanate(BaTiO 3) bulk ceramics have been studied.
以硬脂酸、氢氧化钡和钛酸四丁酯为原料 ,用Sol Gel法合成BaTiO3 。
3.
The behavior of microwave propagation in BaTiO 3 ER fluids was studied.
分别考虑了微波传播方向与电流变液颗粒链相垂直和平行的情况 ,对BaTiO3电流变液微波透射行为进行了实验研究。
4)  barium titanate
BaTiO3
1.
The synthesis of polyaniline-barium titanate composite material by in-situ polymerization was described.
利用原位复合法制备了聚苯胺/BaTiO3复合PTC材料。
2.
Two phases of nanocrystalline barium titanate were synthesized by sol-gel technique using tetrabutyl titanate and barium hydroxide octahydrate.
采用钛酸丁脂和八水氢氧化钡为原料的溶胶-凝胶法制备了纳米BaTiO3粉体。
3.
It is reviewed about hydrothermal synthesis of barium titanate powder in this paper.
讨论了水热合成BaTiO3 粉体的基本机理 (包括原位转变机理和溶解—沉淀机理 )、影响因素和存在的一些问
5)  BaTiO3/EPR
BaTiO3/ERP
6)  BaTiO3-based
BaTiO3基
补充资料:PVDF resin
分子式:
CAS号:

性质: 外观为白色粉状或颗粒状树脂。相对密度1.76~1.79,熔点160~170℃。可在-60~+150℃范围内使用。能溶于如二甲基乙酰胺等强极性溶剂中。具有良好的耐热性、化学稳定性及优异的耐候、抗紫外线、高能辐射等特性。还具有较大的极性,介电常数高,介质损耗角正切值大。加工方便,可采用通常的模塑、挤塑和注塑等方法加工。广泛用作储槽、泵、整体阀门和管路系统,工业控制电线和电线护套;户外建筑涂料和卷钢涂料。还具有压电、热电等功能,可制成各种形状复杂的传感器、信息处理、音响器材、医用材料。

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