欢迎登录材料期刊网

材料期刊网

高级检索

采用熔盐电解法,在700℃的NaCl-CaCl2熔盐体系中直接电解固态金属氧化物制备钛铁合金化合物,以固态Fe粉和TiO2粉混合物为阴极,石墨棒为阳极,刚玉坩埚电解槽,槽电压3.4 V.结果表明,Fle粉和TiO2粉被电解得到钛铁合金.本文对Fe和TiO2不同配比阴极进行了研究,发现不同铁含量的阴极产物不同,在前7 h内随着铁元素含量的增加电解反应速度提高.

参考文献

[1] A.Kinaci,M.K.Aydinol,Ab initio investigation of Feti-H system,International journal of hydrogen energy,32(13),2466(2007)
[2] B.K.Singh,H.Ryu,Development of new hydrogen storage material Feti(Ni) for improved hydrogenation characteristics,IEEJ transactions on electrical and electronic engineering,I(1),24(2006)
[3] L.I.B.X.Zhan G M,Pan F,Magnetic properties and microst ructure of Fe/Ti nano2scale multilayers,182(1-2),89(1998)
[4] Yah X L,Chen X Q,Grytsiva A,Witusiewicz V T,Rogl P,Podloucky R,Pomjaknshin V,Giester G.,Site preference,thermodynamic,and magnetic properties of the ternary laves phase Ti(Fel-Xalx)(2) with the crystal structure of the Mgzn2-Type.International journal of materials research,97(4),450(2006)
[5] J.Koeble,M.Huth,Field induced unidirectional magnetic anisotropy in Fe2Ti thin films,European magnetic materials and applications,373(3),137(2001)
[6] FAN Xu,ZHEN Xiamao,Massive metastable Fe2Ti alloy preparation and magnetic property,6(5),606(2007)(范旭,真下茂,亚稳态Fe2Ti块状合金的制备和磁性,6(5),606(2007))
[7] ZHANG Yingmin,ZHOU Lian,SUN Jun,HAN Mingchen,SHU Ying,YANG Jianming,Cooling bed titanium alloy smelting technology,Titanium Industry,24(4),27(2007)(张英明,周廉,孙军,韩明臣,舒滢,杨建朝,钛合金冷床熔炼技术进展,钛工业进展,24(4),27(2007))
[8] G.Z.Chen,D.J.Fray,T.W.Farthing,Direct electrochemical reduction of titanium dioxide to titanium in molten calcium chloride,Nature,407(6802),361(2000)
[9] C.Schwandt,D.J.Fray,Determination of the kinetic pathway in the electrochemical reduction of titanium dioxide in molten calcium chloride,Electrochimica Acta,51(1),66(2005)
[10] Du J.H.,Xi Z.P.,Li Q.Y.,Li,Z X; Tang,Y.,Process of reduction of TiO2 using electrodeoxidation,Rare metal materials and engineering,35(7),1045(2006)
[11] X.W.Wang,D.P.Ray,T.T.Alton,Electrical conductivity of cryolitic melts (Warrendale,Minerals,Metals & Materials Soc,1991) p.481
[12] X.W.Wang,D.P.Ray,T.T.Alton,A multiple regression equation for the electrical conductivity of cryolitic melts,(Warrendale,Minerals,Metals & Materials Soc,1992) p.247
[13] HU Xianwei,WANG Zhaowen,LU Guimin,SHI Zhongning,CHAO Xiaozhou,CUI Jianzhong,ZHAO Xingliang,Equivalent circuit analysis and application for electrical conductivity measurement by continuously varying cell constant technique,The Chinese Journal of Nonferrous Metals,18(3),551(2008)(胡宪伟,王兆文,路贵民,石忠宁,曹晓舟,崔建忠,赵兴亮,连续变化电导池常数法测定电导率的等效电路分析及应用,中国有色金属学报(2008))
[14] WANG Changzhen,Metallurgical physical chemistry research methods,(Beijing,MetaLlurgical Industry Press,2002) p.344(王常珍,冶金物理化学研究方法(北京,冶金工业出版社,2002)P.344)
[15] T.B.massalski,Binary Alloy Phase Diagrams,ASM International,Materials Park,OH,(1990)
[16] LIANG Yingjiao,CHE Vingchang,Inorganic thermodynamics manual data,(China Liaoning Shenyang,Northeastern University Press,1993) p.634(梁英教,车荫昌,无机物热力学数据手册(沈阳,东北大学出版社,1993)P.634)
上一张 下一张
上一张 下一张
计量
  • 下载量()
  • 访问量()
文章评分
  • 您的评分:
  • 1
    0%
  • 2
    0%
  • 3
    0%
  • 4
    0%
  • 5
    0%