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氮化铀粉末合成工艺研究 被引量:6

Study on Synthesis Process of Uranium Nitride Powder
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摘要 氮化铀燃料制备的关键技术之一是纯度高、烧结活性好的氮化铀粉末合成工艺技术。本文开展了以三碳酸铀酰胺(AUC)流程制备的高活性氧化铀粉末和高纯度的碳黑为主要原材料,采用碳热还原-氮化反应合成氮化铀粉末的工艺研究,初步考察了碳铀摩尔比、反应气氛以及反应温度和时间等对合成产物成分的影响。实验结果表明,采用适当的碳铀摩尔比(2.3~2.4)以及反应制度可以制备出较高纯度的氮化铀粉末。 One of the most important procedures for fabrication of Uranium Nitride fuel is the synthesis of uranium nitride powders with high purity and good sintering ability. The carbothermic synthesis process of uranium nitride powder by reaction of UO2 powder with Carbon and, nitrogen has been studied, and the effect of mole ratio of carbon to uranium, atmosphere controlling, reaction temperature and time on the content of uranium nitride powder has been discussed in this paper. The results show that uranium nitride powder with higher purity can be fabricated by using suitable mole ratio of carbon to uranium (2.3-2.4) and reaction procedures.
作者 易伟 代胜平 沈保罗 左国平 谈先球 彭倩 王莹
机构地区 中国核动力研究设计院核燃料及材料国家级重点实验室 四川大学材料科学与工程学院
出处 《核动力工程》 EI CAS CSCD 北大核心 2007年第5期46-49,118,共5页 Nuclear Power Engineering
关键词 氮化铀 碳热还原 合成工艺 Uranium Nitride, Carbothermic, Synthesis process
分类号 TL364 [核科学技术—核技术及应用]
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参考文献4

  • 1Tadsumi Muromura, Hiroaki Tagawa. Mechanism and Kinetics for the Formation of uranium Mononitride by the Reaction of Uranium Dioxide with Carbon and Nitrogen[J]. Journal of the American Ceramic Society 1978, 61(1-2): 30-35.
  • 2Matthews R B, Chidester K M, Hoth CW et al. Fabrication and Testing of Uranium Nitride Fuel for Space Power Reactor[J]. Journal of Nuclear Materials, 1998, (151): 334 - 344.
  • 3Tadasumi Muromura , Hiroaki Tagawa. Formation of Uranium Mononitride by Reaction of Uranium Dioxide with Carbon in Ammonia and A Mixtureof Hydrogen and Nitrogen[J]. Journal of Nuclear Materials, 1979, (80): 330 - 338.
  • 4Yoshiro Shirasu, Kazuo Minato, Hiroyuki Serizawa. Therodynamics of Carbothermic Synthesis of Actinide Mononitride[J]. Journal of Nuclear Materials, 1997, (247): 151 - 157.

同被引文献22

  • 1TAKANO M, ITOH A, AKABORI M, et al. Carbothermic synthesis of (Cm,Pu)N[J]. Jour- nal of Nuclear Materials, 2001, 294: 24-27.
  • 2ARAI Y, NAKAJIMA K. Preparation and char- acterization of PuN pellets containing ZrN and TiN[J]. Journal of Nuclear Materials, 2000, 281: 244-247.
  • 3JI Youngchang. Hot pressing of uranium nitride and mixed uranium plutonium nitride[C]//The Nuclear Division of the American Ceramic Society Presentation at the 77th Annual Meeting. Wash- ington D. C:. Vs. n. 1, 1975.
  • 4HAYES S L, THOMAS J K, PEDDICORD K L. Material property correlations for uranium mononitride, IV : Thermodynamic properties[J]. Journal of Nuclear Materials, 1990, 171: 300- 318.
  • 5TAGAWA H. Formation of uranium nitride by the reaetion of uranium hydride with nitrogen and ammonia[J]. Bulletin of The Chemistry Society of Japan, 1973, 46:1 158-1 161.
  • 6JAQUES B, MARX B, HAMDY A S, et al. Synthesis of uranium nitride by a mechanically in duced gas-solid reaction[J]. Journal of Nuclear Materials, 2008, 381: 309-311.
  • 7MINATO, K AKABORI M, TAKANO M, et al. Fabrication of nitride fuel for transmutation of minor actinides[J]. Journal of Nuclear Materi- als, 2003, 320: 18-24.
  • 8ARAI Y, MINATO K. Fabrication and electro chemical behavior of nitride fuel for future appli- eations[J]. Journal of Nuclear Materials, 2005, 344:180 -185.
  • 9BROWNA N R, ARONSON A, TODOSOW M, et al. Neutronic performance of uranium nitride composite fuels in a PWR[J]. Nuclear Engineer- ing and Design, 2014, 275: 393-407.
  • 10LINDEMER T B, VOIT S L, SILVA C M, et al. Carbothermic synthesis of 820 vm uranium nitride kernels: Literature review, thermody- namics, analysis, and related experiments[J]. Journal of Nuclear Materials, 2014, 448 (1-3) : 404-411.

引证文献6

二级引证文献14

核动力工程
2007年 第5期

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