摘要
实验表明,在氧化钒中掺杂不同的物质与不同的比例制作的邻界热敏电阻CTR(Critical Temperature Resister)样品的VO2相变点得到了提高,发生了偏移,这种偏移与掺杂成份与比例有一定的关系.根据样品对应的热谱图,从样品成份中VO2、Fe2O3、P2O5微观结构分析各成份所起的作用.设计制作3种掺杂比例不同的样品,比较其不同组份相变点的偏移.此方案得出,在制作邻界热敏电阻CTR时各组份相互牵制相互影响的关系.VO2的相对量与相变点温度成正比关系;P2O5的相对量影响VO2微晶的稳定,也会影响Fe2O3的变价和电子的传导,从而影响VO2的相变;Fe2O3的量与VO2导体性能成正比关系,相对量大,相变点温度将降低.
The experiment shows that VO2 phrase transition points of CTR( Critical Temperature Resister) samples produced by Vanadium oxide doped in different materials with different proportions have been raised, and excursion occurred, and this excursion is related to the doped elements and their proportions. According to the thermal spectrum corresponded to by the sample , different roles played by the elements are analyzed from the micro-structures of VO2, Fe2O3 , P2O5 in sample elements. Components from sample analysis of the components of the role of. Design ratio of Three samples with different doped proportions are designed and produced, and the excursions of phase transition points in their different groups are compared. It follows from this program that in the production of thermistor CTR, each group has mutual influence on each other. The relative amount of VO2 phase transition temperature is directly proportional to the relationship ; the relative volume of P2O5 has the impact on VO2 Microcrystalline stability, and also on the price of Fe2O3 and electronic conduction, thus affecting the phase-change of VO2 ; the volume of Fe2O3 is directly proportional to conductivity of VO2 , i. e. , the larger the relatively amount, the lower the phase transition temperature.
出处
《南京师范大学学报(工程技术版)》
CAS
2009年第2期5-7,共3页
Journal of Nanjing Normal University(Engineering and Technology Edition)
基金
国家自然科学基金(2005111GZ3B341)资助项目