无机化学学报
無機化學學報
무궤화학학보
JOURNAL OF INORGANIC CHEMISTRY
2010年
5期
781-786
,共6页
张惠敏%常爱民%王伟%赵青%彭昌文%陈爱香%姚金城
張惠敏%常愛民%王偉%趙青%彭昌文%陳愛香%姚金城
장혜민%상애민%왕위%조청%팽창문%진애향%요금성
Co1.5Mn1.5-XNiXO4%NTC热敏电阻%阳离子分布%溶胶-凝胶法
Co1.5Mn1.5-XNiXO4%NTC熱敏電阻%暘離子分佈%溶膠-凝膠法
Co1.5Mn1.5-XNiXO4%NTC열민전조%양리자분포%용효-응효법
Co1.5Mn1.5-XNiXO4%NTC thermistor,cation distribution%sol-gel method
本文通过溶胶-凝胶法制备三元系Co1.5Mn1.5-XNiXO4(=0,0.1,0.3,0.5,0.7,1.0)NTC热敏电阻粉体材料,采用激光粒度分析、X射线衍射分析、红外光谱分析、电阻测量等手段,表征了煅烧材料的颗粒尺寸、烧结体的物相、红外吸收光谱以及陶瓷材料的电学特性.结合XRD、IR的分析结果,探讨了阳离子分布与热敏电阻电性能之间的关系,为解决热敏电阻材料高精度、高可靠性方面提供了依据.结果表明:随着Ni离子的增加,所得热敏材料的电阻率呈U型变化,材料常数B值从4427减小到2429K,该系列的电阻率、B25/50值调整范围较大,是一种具有实际应用价值的NTC热敏电阻.
本文通過溶膠-凝膠法製備三元繫Co1.5Mn1.5-XNiXO4(=0,0.1,0.3,0.5,0.7,1.0)NTC熱敏電阻粉體材料,採用激光粒度分析、X射線衍射分析、紅外光譜分析、電阻測量等手段,錶徵瞭煅燒材料的顆粒呎吋、燒結體的物相、紅外吸收光譜以及陶瓷材料的電學特性.結閤XRD、IR的分析結果,探討瞭暘離子分佈與熱敏電阻電性能之間的關繫,為解決熱敏電阻材料高精度、高可靠性方麵提供瞭依據.結果錶明:隨著Ni離子的增加,所得熱敏材料的電阻率呈U型變化,材料常數B值從4427減小到2429K,該繫列的電阻率、B25/50值調整範圍較大,是一種具有實際應用價值的NTC熱敏電阻.
본문통과용효-응효법제비삼원계Co1.5Mn1.5-XNiXO4(=0,0.1,0.3,0.5,0.7,1.0)NTC열민전조분체재료,채용격광립도분석、X사선연사분석、홍외광보분석、전조측량등수단,표정료단소재료적과립척촌、소결체적물상、홍외흡수광보이급도자재료적전학특성.결합XRD、IR적분석결과,탐토료양리자분포여열민전조전성능지간적관계,위해결열민전조재료고정도、고가고성방면제공료의거.결과표명:수착Ni리자적증가,소득열민재료적전조솔정U형변화,재료상수B치종4427감소도2429K,해계렬적전조솔、B25/50치조정범위교대,시일충구유실제응용개치적NTC열민전조.
The ternary system NTC(negative temperature coefficient) powders of Co1.5Mn1.5-XNiXO4(X=0,0.1,0.3,0.5,0.7,1.0)materials were prepared via sol-gel method.The particle size of calcined powders,phase structure,infrared absorption spectra and electrical properties were characterized by using laser particle size analyzer,XRD,IR and electrical measurements,respectively.Combined with the results of XRD and IR spectra,the relation between cation distribution and electrical properties of NTC thermistors were investigated,which provided evidence for high precision and reliability of NTC material.The results of electrical measurements indicated that the electrical resistivity display a U-shape curve with the increase of Ni content,whereas the thermal constant B25/50 decreased remarkably from 4427 to 2429 K.This means that electrical resistivity and B25/50 of Co1.5Mn1.5-XNiXO4 system could be adjusted to the desired values and then considered this ternary system as advanced semi-conducting materials for NTC thermistor applications.
