- · 《冶金与材料》栏目设置[05/29]
- · 《冶金与材料》收稿方向[05/29]
- · 《冶金与材料》投稿方式[05/29]
- · 《冶金与材料》征稿要求[05/29]
- · 《冶金与材料》刊物宗旨[05/29]
氟化物熔盐的制备及其应用进展(13)
作者:网站采编关键词:
摘要:[76]林如山,何辉,叶国安,等. 氟盐体系Ce(Ⅲ) 的电化学行为研究[C]//全国核化学与放射化学学术讨论会,2012.LIN R S,HE H,YE G A,et al. Study on electroche
[76]林如山,何辉,叶国安,等. 氟盐体系Ce(Ⅲ) 的电化学行为研究[C]//全国核化学与放射化学学术讨论会,2012.LIN R S,HE H,YE G A,et al. Study on electrochemical behavior of Ce (III) in fluorine salt system[C]//National Symposium on Nuclear Chemistry and Radiochemistry,2012.
[77]龙德武,黄卫,蒋锋,等. 干法后处理中的熔盐电化学技术[C]//全国核化学与放射化学学术讨论会, D W,HUANG W,JIANG F,et al. Molten salt electrochemical technology in dry reprocessing of spent fuel [C]//National Symposium on Nuclear Chemistry and Radiochemistry,2012.
[78]TAKASAWA Y,ONOUE T,HOSHINO Y,et al. Improvement of current efficiency in electrowinning uranium metal in molten fluorides[ J]. Denki Kagaku,1999,67(6):718-721.
[79]ALANGI N,MUKHERJEE J,GANTAYET L M. Solubility of uranium oxide in molten salt electrolysis bath of Li-BaF2with LaF3additive[J]. Journal of Nuclear Materials,2016,470:90-96.
[80]刘刈,王长水,曹龙浩,等. 氟化物熔盐中铀离子的电化学行为研究[J].化学通报,2013,76(11): Y,WANG C S,CAO L H,et al.The electrochemical behavior of uranium ions in Lif-Naf molten salts[J]. Chemistry Bulletin,2013,76(11):1049-1052.
[81]谢宏伟,王锦霞,翟玉春,等. 低温熔盐铝电解的研究进展[J].材料导报,2009,23(9): H W,WANG J X,ZHAI Y C,et al. Research on low temperature aluminium electrolysis in molten salts[J]. Materials Reviews,2009,23(9):13-18.
[82]杨绮琴,段淑贞. 熔盐电化学的新进展[J].电化学,2001,7(1): Q Q,DUAN S Z. The new developments of molten salt electrochemistry[J]. Electrochemistry,2001,7 (1):10-17.
[83]GOUPIL G,HELLE S,DAVIS B. et al. Anodic behavior of mechanically alloyed Cu-Ni-Fe and Cu-Ni-Fe-O electrodes for aluminum electrolysis in low-temperature KF-AlF3electrolyte[J].Electrochimica Acta,2013,112:176-182.
[84]马秀芳,李德祥,陈建设,等. Na3AlF6-AlF3-LiF-CaF2系熔体的等溶初晶温度和等溶变温密度[J]. 中国有色金属学报,2000,10(1): X F,LI D X,CHEN J S,et al. Initial crystallization temperature and density at nonequal temperature of Na3AlF6-AlF3-LiF-CaF2system under isosolubity of alumina[J].The Chinese Journal of Nonferrous Metals,2000,10(1):109-112.
[85]SHARMA R A. Method for producing aluminum metal from aluminum trichloride,US A[P]. 2000-05-23.
[86]LA CAMERA A F,TOMASWICK K M, RAY S P,et al. Process and apparatus for low temperature electrolysis of oxides,US A[P]. 1994-01-18.
[87]THONSTAD J,et al. Alternative electrolyte compositions for aluminum electrolysis[J]. Trans. Inst. Min. Metall. Sect. C:Miner Process Extr. Metal,2005,114(3):C188.
[88]KAN H,WANG Z W,SHI Z N,et al. Liquidus temperature,density and electrical conductivity of low temperature electrolyte for aluminum electrolysis[C]// Light Metals 2007. Warrendale:Minerals,Metals & Materials Soc,2007:531.
[89]王兆文,石忠宁,高炳亮,等. 一种高电导率铝电解用低温电解质及其使用方法:[P]. Z W,SHI Z N,GAO B L,et al. High conductivity electrolyte and the use method for low temperature aluminum electrolysis:CN[P]. 2009-03-18.
[90]杨少华. 以MgO为原料熔盐电解法制备Mg-Al合金的研究[D].沈阳:东北大学, S H. Study on preparation Al-Mg alloy by molten salt electrolysis method from magnesium oxide[D]. Shenyang :Northeastern University,2008.
[91]张明杰,李金丽,梁家骁. 熔盐电解法生产 Al-Sc合金[J].东北大学学报(自然科学版),2003,24(4): M J,LI J L,LIANG J X. Preparation of Al-Sc alloys by molten salt electrolysis[J]. Journal of Northeastern University(Natural Science),2003,24(4):358-360.
[92]田忠良,赖延清,杨树,等. 一种制备铝-钪合金的熔盐电解方法:A[P]. Z L,LAI Y Q,YANG S,et al. Method for preparing aluminum-scandium intermediate alloy by molten salt electrolysis:CNA[P]. 2015-07-01.
[93]张小联,郑鑫,王虹. 一种液态阴极熔盐电解法制备铝钐中间合金的方法:A[P]. X L,ZHENG X,WANG H. Method for preparing aluminum samarium master alloy by liquid cathode molten salt electrolysis process:CNA[P]. 2015-07-15.
[94]胡建锋,徐璟玉,熊斌,等.熔盐电解提纯多晶硅的研究进展[J].有色金属工程,2011(3):38-40.HU J F,XU J Y,XIONG B,et al. Research progress of molten salt electrolytic purification polysilicon[J]. Nonferrous Metals,2011(3):38-40.
[95]蔡宗英,张莉霞,李运刚. 电沉积硅技术的历史和发展趋势[J].湿法冶金,2004,23(4): Z Y,ZHANG L X,LI Y G. History and development direction of silicon electrodeposition[J]. Hydrometallurgy of China,2004,23(4):188-190.
[96]STUBERGH J R,LIU Z. Preparation of pure silicon by electrowinning in a bytownite-crylite melt [J]. Metallurgical and Materials Transactions B,1996,27B:895-899.
文章来源:《冶金与材料》 网址: http://www.yjyclzz.cn/qikandaodu/2021/0420/827.html
上一篇:冶金机械设备维修管理探讨
下一篇:新工科背景下产学研协同冶金人才的培养模式探