1) electric properties
电性能
1.
Preparation and electric properties of BaTiO_3-based PTC ceramics doped by gaseous rare earth;
稀土气相掺杂BaTiO_3基PTC陶瓷的制备与电性能
2.
Effect of alloying elements Ga and X on the electric properties of magnesium alloy anode materials;
合金元素Ga、X对镁基负极材料电性能的影响
3.
The structural and electric properties of carbon fiber reinforced mortar and the related factors;
碳纤维水泥砂浆的力学与电性能及其影响因素研究
2) electrical property
电学性能
1.
Technological parameters and electrical property of TiN thin films grown processing by magnetron sputtering
磁控溅射TiN薄膜的工艺及电学性能研究
2.
With the different heat treatment,the electrical property of a new Cu-based Alloy contact terminal material is studied.
本文主要对一种新型铜基电触头材料不同热处理工艺下的电学性能进行了探讨。
3) electromagnetic property
电磁性能
1.
The electric conductivity and electromagnetic property of TPI/CNTs composites were studied.
用紫外光辐照法制备了反式-1,4-聚异戊二烯(TPI)/碳纳米管(CNTs)复合材料,研究了复合材料的导电性能和电磁性能。
2.
The influence of the parameter of heat treatment technique on electromagnetic property of silicon steel slice is inquired into here.
探讨了热处理工艺参数对硅钢片电磁性能的影响。
3.
The electromagnetic property of the composites with different contents of MWCNTs in the wave band from 0.
5~18 GHz频段,不同碳纳米管含量对复合材料电磁性能的影响。
4) capacitance performance
电容性能
1.
Preparation and study on the capacitance performance of Co_3O_4;
Co_3O_4的制备及电容性能的研究
2.
Effects of different Ni/Zn ratios of electrodepositing solution on capacitance performance of Ni(OH)_2 supercapcitor positive electrode material
电沉积液中不同镍锌比对超级电容器正极材料Ni(OH)_2电容性能的影响
5) dielectric properties
介电性能
1.
The sintering behavior and microwave dielectric properties of Mg_4(Ta_(1-x)V_x)_2O_9 ceramics;
Mg_4(Ta_(1-x)V_x)_2O_9陶瓷的烧结特性和微波介电性能
2.
Effect of doped Mg~(2+) and Mn~(2+) on the dielectric properties of BaTiO_3-metal composite system;
Mg~(2+)和Mn~(2+)掺杂对BaTiO_3-金属复合系介电性能的影响
3.
Preparation of Cd-doped BZCN thin film and its dielectric properties;
Cd掺杂BZCN薄膜的制备及其介电性能
6) dielectric property
介电性能
1.
Temperature and dielectric property of resin during RTM process;
RTM工艺中树脂固化温度与介电性能
2.
Correlations between dielectric property and modulated structure in the (Ta_2O_5)_(0.92)(TiO_2)_(0.08) system;
Ta_2O_5-TiO_2调制结构和介电性能相关性
3.
Effects of nickel addition on the microstructure and dielectric property of barium titanate powder and ceramic with excessive Ti;
掺镍对钛过量钛酸钡粉体及其陶瓷的结构及介电性能的影响
补充资料:高分子材料电性能
高分子材料电性能
electrical properties of polymer materials
高分子材料电性能eleetrieal properties or poly,mer matertals高分子材料在电场作用下的行为。主要指导电性、介电常数、介电损耗和介电强度性能。 高分子材料的导电性能通常以体积电阻系数两或表面电阻系数Ps表示。根据理论计算,纯的固体高聚物的两应高达1护5见·cm,但实际上Pv最高的如聚四氟乙烯约105砚·cm。这是因为高聚物中常残留一定量的催化剂和引发剂等未被除净,制品中所含的增塑剂、染料、填料和一些低分子物亦将增大其电导率。介电常数己是表征电介质在电容器中极化过程的一个特性常数,通常用以该材料为电介质的电容器的电容c与以真空为电介质同一电容器的电容的比值表示。所以实际使用时,高分子材料作为电介质使用,希望有高的介电常数值;作为支承体或绝缘体使用,则要求有较低的值。介电损耗是电介质在交流电场中显示为热量增高的能量损耗,用公式表示为 尸一左才EZ已tg占式中f为频率,E为电场强度,了为介电常数,占为介电损耗角,k为比例常数。介电损耗能引起绝缘破坏、变形、变质等。一般选择已、tg占小的材料。介电强度瓜指击穿材料所需电压的量度,以kV/mm表示。影响电击穿的因素很多,除与材料的本质有关外,与电介质的比热、导热性、介电常数、介电损耗及电压升高速度等有关。 根据高分子材料性能指标及偶极矩召的大小,高分子材料一般可分为3类:①非极性。刀=0,:‘=2,tg占
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