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Thermodynamics of Preparing BxC Condensed Phases by CVD Using BCl3-CH4-H2 as Precursors
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National Natural Science Foundation of China (51402024, 51402023); The State Key Laboratory of Solidification Processing Funding in Northwestern Polytechnical University (NWPU) (SKLSP201224, SKLSP201317, SKLSP201211); The Special Funding for Fundamental Scientific Research of Central Colleges of Chang’an University (CHD2011JC145, 2013G3314001)

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    Abstract:

    The products of self-healing phase BxC were examined as a function of temperature and initial gas molar ratios of BCl3:(BCl3+CH4) and H2:(BCl3+CH4) by complete thermodynamic equilibrium analysis. The results show that the composition of the condensed phase is quite sensitive to temperature and the molar ratios of BCl3:(BCl3+CH4) and H2:(BCl3+CH4). Based on our calculation, the ideal conditions for BxC deposition are as follows: the ratio of BCl3:(BCl3+CH4) is 0.8, the ratio of H2:(BCl3+CH4) ranges from 10 to 105.2, and the temperature is above 950 K. We found that the carbon-richment or boron-richment in materials are mainly adjusted by the ratios of BCl3:(BCl3+CH4) and H2:(BCl3+CH4)

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[Sun Guodong, Deng Juanli, Li Hui, Zhang Qing. Thermodynamics of Preparing BxC Condensed Phases by CVD Using BCl3-CH4-H2 as Precursors[J]. Rare Metal Materials and Engineering,2015,44(4):826~825.]
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  • Received:April 25,2014
  • Revised:
  • Adopted:
  • Online: June 08,2015
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