Effect of rare earth element cerium on preparation of tungsten powders

Tungsten powders and Ce doped powders were prepared by hydrogen reduction combined with the liquid-solid doping method. The phase composition, particle size and powder morphology of Ce doped tungsten powders were analyzed by X-ray diffrac-tion, scanning electron microscopy and transmission electron...

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Published in	Journal of rare earths Vol. 33; no. 5; pp. 561 - 566
Main Author	何文谭敦强李亚蕾杨欣陆磊陆德平
Format	Journal Article
Language	English
Published	Elsevier B.V 01.05.2015
Subjects	cerium Ce掺杂 Doping Hydrogen reduction Nuclei Rare earth metals rare earths Scanning electron microscopy Ternary systems Tungsten tungsten oxide Tungsten oxides tungsten powders 制备扫描电子显微镜氢还原稀土元素透射电子显微镜钨粉末铈掺杂 tungsten oxide hydrogen reduction cerium tungsten powders rare earths
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ISSN	1002-0721 2509-4963
DOI	10.1016/S1002-0721(14)60456-7

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Abstract	Tungsten powders and Ce doped powders were prepared by hydrogen reduction combined with the liquid-solid doping method. The phase composition, particle size and powder morphology of Ce doped tungsten powders were analyzed by X-ray diffrac-tion, scanning electron microscopy and transmission electron microscopy, respectively. The results indicated that 10000 ppm Ce doped tungsten oxide powders were consisted of WO3 phase and Ce4W9O33 phase. The hydrogen reduction of Ce doped tungsten powders was basically accomplished at 800 oC for 3 h. The size of Ce doped W powders was remarkably decreased compared to the undoped W powders. The phase of Ce4W9O33 was reduced to Ce2 （WO4）3 phase and Ce2W2O9 phase during the process of hydrogen reduction. Moreover, Ce2 （WO4）3 phase and Ce2W2O9 phase were observed form their morphologies, where the doping content of Ce was more than 100 ppm. The ternary phase embedding into W particles was assigned to Ce2 （WO4）3, while the ternary phase distrib-uting among W particles corresponded to Ce2W2O9. The phase of Ce2 （WO4）3 might be the nucleus of W particles and increase the number of the nucleus. And the particles of Ce2W2O9 covered WO2 particles and might inhibit the growth of W particles. These two reasons resulted in the decrease of the size of Ce doped W particles. Uniform fine W powders were fabricated with the doping content of Ce more than 100 ppm.
AbstractList	Tungsten powders and Ce doped powders were prepared by hydrogen reduction combined with the liquid-solid doping method. The phase composition, particle size and powder morphology of Ce doped tungsten powders were analyzed by X-ray diffraction, scanning electron microscopy and transmission electron microscopy, respectively. The results indicated that 10000 ppm Ce doped tungsten oxide powders were consisted of WO sub(3) phase and Ce sub(4)W sub(9)O sub(33) phase. The hydrogen reduction of Ce doped tungsten powders was basically accomplished at 800 [degrees]C for 3 h. The size of Ce doped W powders was remarkably decreased compared to the undoped W powders. The phase of Ce sub(4)W sub(9)O sub(33) was reduced to Ce sub(2)(WO sub(4)) sub(3) phase and Ce sub(2)W sub(2)O sub(9) phase during the process of hydrogen reduction. Moreover, Ce sub(2) (WO sub(4)) sub(3) phase and Ce sub(2)W sub(2)O sub(9) phase were observed form their morphologies, where the doping content of Ce was more than 100 ppm. The ternary phase embedding into W particles was assigned to Ce sub(2)(WO sub(4)) sub(3), while the ternary phase distributing among W particles corresponded to Ce sub(2)W sub(2)O sub(9). The phase of Ce sub(2) (WO sub(4)) sub(3) might be the nucleus of W particles and increase the number of the nucleus. And the particles of Ce sub(2)W sub(2)O sub(9) covered WO sub(2) particles and might inhibit the growth of W particles. These two reasons resulted in the decrease of the size of Ce doped W particles. Uniform fine W powders were fabricated with the doping content of Ce more than 100 ppm. Tungsten powders and Ce doped powders were prepared by hydrogen reduction combined with the liquid-solid doping method. The phase composition, particle size and powder morphology of Ce doped tungsten powders were analyzed by X-ray diffrac-tion, scanning electron microscopy and transmission electron microscopy, respectively. The results indicated that 10000 ppm Ce doped tungsten oxide powders were consisted of WO3 phase and Ce4W9O33 phase. The hydrogen reduction of Ce doped tungsten powders was basically accomplished at 800 oC for 3 h. The size of Ce doped W powders was remarkably decreased compared to the undoped W powders. The phase of Ce4W9O33 was reduced to Ce2 （WO4）3 phase and Ce2W2O9 phase during the process of hydrogen reduction. Moreover, Ce2 （WO4）3 phase and Ce2W2O9 phase were observed form their morphologies, where the doping content of Ce was more than 100 ppm. The ternary phase embedding into W particles was assigned to Ce2 （WO4）3, while the ternary phase distrib-uting among W particles corresponded to Ce2W2O9. The phase of Ce2 （WO4）3 might be the nucleus of W particles and increase the number of the nucleus. And the particles of Ce2W2O9 covered WO2 particles and might inhibit the growth of W particles. These two reasons resulted in the decrease of the size of Ce doped W particles. Uniform fine W powders were fabricated with the doping content of Ce more than 100 ppm. Tungsten powders and Ce doped powders were prepared by hydrogen reduction combined with the liquid-solid doping method. The phase composition, particle size and powder morphology of Ce doped tungsten powders were analyzed by X-ray diffraction, scanning electron microscopy and transmission electron microscopy, respectively. The results indicated that 10000 ppm Ce doped tungsten oxide powders were consisted of WO3 phase and Ce4W9O33 phase. The hydrogen reduction of Ce doped tungsten powders was basically accomplished at 800 °C for 3 h. The size of Ce doped W powders was remarkably decreased compared to the undoped W powders. The phase of Ce4W9O33 was reduced to Ce2 (WO4)3 phase and Ce2W2O9 phase during the process of hydrogen reduction. Moreover, Ce2 (WO4)3 phase and Ce2W2O9 phase were observed form their morphologies, where the doping content of Ce was more than 100 ppm. The ternary phase embedding into W particles was assigned to Ce2 (WO4)3, while the ternary phase distributing among W particles corresponded to Ce2W2O9. The phase of Ce2 (WO4)3 might be the nucleus of W particles and increase the number of the nucleus. And the particles of Ce2W2O9 covered WO2 particles and might inhibit the growth of W particles. These two reasons resulted in the decrease of the size of Ce doped W particles. Uniform fine W powders were fabricated with the doping content of Ce more than 100 ppm. SEM images of Ce doped tungsten powders reduced at 800 °C for 3 h (10000 ppm)
Author	何文谭敦强李亚蕾杨欣陆磊陆德平
AuthorAffiliation	School of Materials Science and Engineering, Nanchang University, Nanchang 330031, China Institute of Applied Physics, Jiangxi Academy of Sciences, Nanchang 330029, China
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Cites_doi	10.1016/S1002-0721(14)60109-5 10.1016/j.ijrmhm.2013.01.010 10.1016/0040-6031(96)02951-6 10.1016/j.ijrmhm.2009.11.010 10.1016/j.ijrmhm.2012.11.008 10.1016/j.jpcs.2011.06.015 10.1016/j.ijrmhm.2014.07.014 10.1016/j.jallcom.2013.12.019 10.1016/S1002-0721(12)60414-1 10.1016/j.msea.2012.01.011 10.1016/S1002-0721(12)60331-7 10.1016/S1002-0721(12)60363-9 10.1016/S1002-0721(14)60412-9 10.1016/S1002-0721(12)60428-1 10.1016/j.ijrmhm.2012.02.014 10.1016/j.ijrmhm.2014.01.018
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Keywords	tungsten oxide hydrogen reduction cerium tungsten powders rare earths
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Notes	HE Wen,TAN Dunqiang,LI Yalei,YANG Xin,LU Lei,LU Deping 11-2788/TF Tungsten powders and Ce doped powders were prepared by hydrogen reduction combined with the liquid-solid doping method. The phase composition, particle size and powder morphology of Ce doped tungsten powders were analyzed by X-ray diffrac-tion, scanning electron microscopy and transmission electron microscopy, respectively. The results indicated that 10000 ppm Ce doped tungsten oxide powders were consisted of WO3 phase and Ce4W9O33 phase. The hydrogen reduction of Ce doped tungsten powders was basically accomplished at 800 oC for 3 h. The size of Ce doped W powders was remarkably decreased compared to the undoped W powders. The phase of Ce4W9O33 was reduced to Ce2 （WO4）3 phase and Ce2W2O9 phase during the process of hydrogen reduction. Moreover, Ce2 （WO4）3 phase and Ce2W2O9 phase were observed form their morphologies, where the doping content of Ce was more than 100 ppm. The ternary phase embedding into W particles was assigned to Ce2 （WO4）3, while the ternary phase distrib-uting among W particles corresponded to Ce2W2O9. The phase of Ce2 （WO4）3 might be the nucleus of W particles and increase the number of the nucleus. And the particles of Ce2W2O9 covered WO2 particles and might inhibit the growth of W particles. These two reasons resulted in the decrease of the size of Ce doped W particles. Uniform fine W powders were fabricated with the doping content of Ce more than 100 ppm. cerium; tungsten oxide; hydrogen reduction; tungsten powders; rare earths ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23
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Snippet	Tungsten powders and Ce doped powders were prepared by hydrogen reduction combined with the liquid-solid doping method. The phase composition, particle size...
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SubjectTerms	cerium Ce掺杂 Doping Hydrogen reduction Nuclei Rare earth metals rare earths Scanning electron microscopy Ternary systems Tungsten tungsten oxide Tungsten oxides tungsten powders 制备扫描电子显微镜氢还原稀土元素透射电子显微镜钨粉末铈掺杂
Title	Effect of rare earth element cerium on preparation of tungsten powders
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