2) low resistance at room temperature
室温低电阻
3) 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。
4) 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。
5) low temperature resistivity
低温电阻率
6) room-temperature and low-field magnetoresistance
室温低场磁电阻
补充资料:电导率(见电阻率)
电导率(见电阻率)
conductivity
d!日nd日O}已电导率(eonduetivity)见电阻率。
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