摘要
采用低温固态反应合成了La、Mn掺杂纳米钛酸钡基固溶体粉体,研究了各种烧结条件对其PTC材料性能的影响。实验表明,随着烧结温度的升高,材料的室温电阻先减后增,而升阻比基本呈先增后减的变化规律。随着保温时间的增长,材料的室温电阻也呈现先减后增的规律,且电阻温度系数逐渐增大。当烧结温度为1330℃,保温时间为30min时,制得了室温电阻率为72.97Ω·cm,升阻比和电阻温度系数分别为5.55×10^4和18.41%/℃的性质优良的PTC陶瓷材料。同时,对于各种变化规律给予了一定的理论解释。
The BaTiO3-based PTC ceramic powder doped with La and Mn was synthesized by solid-state reaction at low temperature. It can be seen that the room-temperature resistance changes as the U-type curve with an increase of sintering temperature while the resistance jump is on the reverse in general. The room-temperature resistance changes as the U-type curve and the temperature coefficient of resistance a increases with an increase of soaking time. It is found that the Pgr is 72.97D.cm, resistivity jump is 5.55×10^4 and temperature coefficient of resistance α is 18.41%/℃ when the ceramics materials sintered at 1330℃ for 30rain. Moreover, the effect of sintering conditions has been discussed and explained in theory.
出处
《功能材料》
EI
CAS
CSCD
北大核心
2007年第A02期453-455,共3页
Journal of Functional Materials
基金
河北省自然科学基金重点资助课题(299078).
