柠檬酸凝胶法制备Mn-Ni-Fe基负温度系数热敏陶瓷

PREPARATION OF Mn-Ni-Fe BASED NEGATIVE TEMPERATURE COEFFICIENT THERMISTORS VIA A CITRATE GEL ROUTE

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摘要采用柠檬酸凝胶法制备锰-镍-铁基前驱体,在300℃煅烧干燥的前驱体得到纳米粒度粉末,压制成圆片坯体后在1100～1300℃烧结得到负温度系数(negative temperature coefficient,NTC)热敏陶瓷样品。研究了粉体和烧结样品的相结构、微观形貌、电性能和热敏特性。结果表明:合成粉体的纳米颗粒为单相Mn1/3Ni2/3Fe2O4尖晶石,粉体具有高化学均匀性。烧结的Mn1/3Ni2/3Fe2O4陶瓷样品具有均匀的微观结构,陶瓷样品的烧结密度和材料敏感指数β随着烧结温度的增加而增加。测量温度为50～150℃范围时,1300℃烧结的Mn1/3Ni2/3Fe2O4样品,其β可高达4300K。 Mn-Ni-Fe based precursor was prepared via a citrate gel route. The nano-crystalline powder was obtained by calcining dried precursor at 300 ℃ ,and then a negative temperature coefficient （NTC） thermistor ceramic was prepared after sintering the compacted disc samples at 1 100-1 300 ℃. The phase composition,morphology,electronic property and thermo-sensitivity of the ceramic were investigated. The results show that the nano-crystalline particles of the powder are single-phase Mn1/3Ni2/3Fe2O4 spinel,and it possesses highly chemical homogeneity. The sintered Mn1/3Ni2/3Fe2O4 ceramics have homogeneous microstructure,and the sintered density and NTC sensitivity index β of the ceramic samples increase with the increase of sintering temperature. The sensitivity index β of the Mn1/3Ni2/3Fe2O4 ceramic sample sintered at 1 300 ℃ can be as high as 4 300 K （measured in the temperature range of 50-150 ℃ ）.

作者范积伟陈林张小立赵慧君王志新王晓杰

机构地区中原工学院中国地质大学(武汉)材料与化工学院

出处《硅酸盐学报》 EI CAS CSCD 北大核心 2010年第8期1430-1433,共4页 Journal of The Chinese Ceramic Society

基金河南省科技厅科技攻关(072102240036)资助项目

关键词负温度系数热敏电阻锰-镍-铁尖晶石凝胶法电性能 negative temperature coefficient thermistor manganese-nickel-iron spinel gel route electrical property

分类号 TM283 [一般工业技术—材料科学与工程]

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1SAHA D, SHARMA A D, SEN A, et al. Preparation of bixbyite phase (MnxFe1-x)2O3 for NTC thermistor applications [J]. Mater Lett, 2002, 55: 403-406.
2FAN J, SALE F R. Citrate gel route processing of ZnO varistors [J]. British Ceram Proc, 1994, 52: 151-157.
3FAN J, SALE F R. Analysis of power loss on Mn-Zn ferrites prepared by different processing routes [J]. IEEE Trans Magn, 1996, 32: 4854- 4856.
4FAN J, SALE F R. The microstractures, magnetic properties and impedance analysis of Mn-Zn ferrites doped with B2O3 [J]. J Eur Ceram Soc, 2000, 20: 2743-2751.
5SALE F R, MAHLOOJCHI F. Citrate gel processing of oxide superconductors [J]. Ceram Int, 1988, 14: 229-237.
6SALE F R, FAN J, CHIEN Y T. The effects of V2O5 on the microstructure and magnetic properties of gel-derived Mg-Mn-Zn and Mn- Zn ferrites [J]. Ceram Trans, 1995, 47: 155-167.
7YUE Z X, SHAN J H, QI X W, et al. Synthesis of nanocrystalline manganite powder via a gel auto combustion process for NTC thermistor applications [J]. Mater Sci Eng B, 2003, 99: 217-220.
8GROEN W A, METZMACHER C, ZASPALIS V, et al. Aging of NTC ceramics in the system Mn-Ni-Fe-O [J]. J Eur Ceram Soc, 2001, 21: 1793-1796.

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2许超,袁坚.凝胶法合成含铁磁性材料的研究[J].特种玻璃,1990,7(2):34-38.
3赵金秋,刘艳改,高广智,黄朝晖,房明浩.溶胶–凝胶法制备(Na_(0.50+x)K_(0.50-2x)Li_x)Nb_(0.9)Ta_(0.1)O_3无铅压电陶瓷及其性能[J].硅酸盐学报,2012,40(3):351-356. 被引量：1
4范积伟,刘秀波,赵慧君.氧化锌压敏陶瓷的有机凝胶法制备研究[J].功能材料,2007,38(A02):561-563. 被引量：1
5连江平,李倩倩,温巧娥,马书良.锂离子电池负极材料钛酸锂的研究进展[J].新能源进展,2016,4(4):297-304. 被引量：3
6贺益,陈召勇,刘兴泉,李志杰,于作龙.类凝胶法制备锂离子二次电池正极材料镍钴酸锂[J].合成化学,2001,9(2):142-144.
7刘恩辉,李新海,何则强,侯朝辉,邓凌峰.LiV_3O_8的合成及电化学性能[J].电池,2004,34(3):164-165. 被引量：8
8温建武,滕元成,李玉香,王进,任雪潭.锂离子电池正极材料LiNi_(1/3)Co_(1/3)Mn_(1/3)O_2的合成及性能研究[J].电子元件与材料,2009,28(12):30-32. 被引量：2
9史晋宜,丁元生.SiO_2表面包覆锂离子电池阴极材料LiMn_2O_4及对其性能影响研究[J].辽宁化工,2013,42(11):1276-1277. 被引量：2
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硅酸盐学报

2010年第8期

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柠檬酸凝胶法制备Mn-Ni-Fe基负温度系数热敏陶瓷

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