NbH还原制备新型电容器阳极材料低价铌氧化物  

Preparation of niobium suboxide for new electrolytic capacitor anode by NbH reduction

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作  者:李荐[1] 易丹青[1] 温俊杰[2] 钟晖[2] 

机构地区:[1]中南大学材料科学与工程学院,湖南长沙410083 [2]中南大学冶金科学与工程学院,湖南长沙410083

出  处:《中南大学学报(自然科学版)》2006年第3期461-466,共6页Journal of Central South University:Science and Technology

摘  要:采用NbH还原Nb2O5工艺制备低价铌氧化物粉末,经压制成型、阳极烧结、阳极氧化工艺,获得电性能优良的低价铌氧化物电解电容器阳极。采用X射线衍射、扫描电镜、成分分析及电容器阳极电性能检测等方法,对比研究高能球磨与玛瑙研磨2种不同混料工艺。研究结果表明:高能球磨工艺制备的低价铌氧化物有明显片式化现象,粒度小,比容可达107.00 mF.V.g-1,但球磨过程中引入的杂质难以在后续的洗涤过程中彻底除去,导致阳极漏电流大。用正交试验法及方差分析对玛瑙研磨工艺进行优化,得到制备低价铌氧化物最佳条件是:焙烧温度为1 000℃,焙烧时间为40 min,NbH用量与理论量之比为1.1,所制得的产物杂质含量低,比容为69.50mF.V.g-1,损耗为11.25%,漏电流为1.8×10-4A.F-1.V-1,其电性能指标高于FTa16—300电容器钽粉国家标准(GB/T 3136—1995)所规定的值。The niobium suboxide powder was prepared by NbH reduction Nb2O5 procedure, pressing to the mould, sintering and oxidation of the niobium suboxide anode, and niobium suboxide for capacitor anode with good electrical property was obtained. The high energy ball milling procedure and agate grind procedure were compared by means of X-ray diffraction, scanning electron microscopy, component analysis and electrical property test for capacitor anode. The results show that the particle size of production of high energy ball milling procedure is very fine, inclined to slice, the specific capacity is 107.00mF·V·g^-1, and the leakage current is high because of the impurity content. The agate grind procedure is optimized by orthogonal experiments and analysis of variance. The optimal processing conditions are as follows: roasting temperature at 1 000℃, roasting time for 40 min, the ratio of NbH dosage to theoretic dosage at 1.1. The specific capacity of niobium suboxide of preparation by agate grind procedure is 69. 50mF·V·g^-1, the loss is 11.25%, the leakage current is 1.8×10^-4A·F^-1·V^-1 , and the electrical properties are better than that of the national standard (GB/T 3136-1995) of FTa16-300 tantalum powder for capacitor.

关 键 词:低价铌氧化物 NbH 电解电容器阳极 电性能 

分 类 号:TB53[理学—物理] TB34[理学—声学]

 

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