2) room temperature resistivity
室温电阻率
1.
The influence of cooling rate on the room temperature resistivity of PTCR ceramics was studied emphatically.
着重研究降温速率对PTCR室温电阻率的影响。
2.
Resistivity-temperature characteristic of the material and dependences of it s room temperature resistivity and technological parameters on the dopants are discussed.
4))TiO_3为基质,掺杂Y三价施主元素及AST,选用最佳烧制工艺,制成了具有较低室温电阻率及较优电阻温度系数的低居里点(~0℃)突变型PTC材料。
3.
In order to reduce the room temperature resistivity of BaTiO_3-based PTC ceramics, BaTiO_3-based PTC ceramic particles were mixed with graphite particles and the composite materials were molded with epoxy resin.
本实验在BaTiO_3基PTC陶瓷颗粒中掺入石墨颗粒并利用环氧树脂使复合材料成型,以此来降低BaTiO_3基PTC陶瓷的室温电阻率。
3) room-temperature resistivity
室温电阻率
1.
This paper presents a method of combining the good conductive function of Ni and graphite with BaTiO3-based composites′ high PTC effect,that is adding Ni and high-purity graphite powders to BaTiO3-based PTC composites,in order to find out an effective method which can decrease room-temperature resistivity.
采用在BaTiO3陶瓷中加入Ni粉和石墨粉,将金属Ni和石墨的良好导电性能与BaTiO3基材料优良的PTC效应相结合,旨在研究降低BaTiO3基陶瓷室温电阻率的有效途径。
2.
The results show that the lowest room-temperature resistivity of the sample doped with YCl3 and LaCl3 are 17 ?·cm and 47 ?·cm respectively, and all samples have certain PTC effect.
结果显示,YCl3掺杂样品的最低室温电阻率为17?·cm、LaCl3掺杂的为47?·cm,且样品都具有一定的PTC效应。
4) room temperature magnetoresistance
室温磁电阻
1.
Electrical behavior and enhancement of room temperature magnetoresistance induced by the Cu doping in La_(0.67)Ba_(0.33)MnO_3;
La_(0.67)Ba_(0.33)MnO_3中Cu掺杂对电特性和室温磁电阻的影响
2.
The experiment also showed that doping W can gradually increase the room temperature magnetoresistance of the material.
05时,样品的室温磁电阻迅速上升,从4%增加到10。
3.
4 T,the room temperature magnetoresistance increases from 5% to 15% when 0≤x≤ 12.
5%时,样品的室温磁电阻值从5%增大到15%,提高了200%。
5) low resistance at room temperature
室温低电阻
补充资料:铂电阻温度表(见电阻温度表)
铂电阻温度表(见电阻温度表)
表。bod旧nZu wendubiao铂电阻温度表见电阻温
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