FEM simulations and experimental studies of the temperature field in a large diamond crystal growth cell 被引量：6

FEM simulations and experimental studies of the temperature field in a large diamond crystal growth cell

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摘要 We investigate the temperature field variation in the growth region of a diamond crystal in a sealed cell during the whole process of crystal growth by using the temperature gradient method （TGM） at high pressure and high temperature （HPHT）. We employ both the finite element method （FEM） and in situ experiments. Simulation results show that the temperature in the center area of the growth cell continues to decrease during the process of large diamond crystal growth. These results are in good agreement with our experimental data, which demonstrates that the finite element model can successfully predict the temperature field variations in the growth cell. The FEM simulation will be useful to grow larger high-quality diamond crystal by using the TGM. Furthermore, this method will be helpful in designing better cells and improving the growth process of gem-quality diamond crystal. We investigate the temperature field variation in the growth region of a diamond crystal in a sealed cell during the whole process of crystal growth by using the temperature gradient method （TGM） at high pressure and high temperature （HPHT）. We employ both the finite element method （FEM） and in situ experiments. Simulation results show that the temperature in the center area of the growth cell continues to decrease during the process of large diamond crystal growth. These results are in good agreement with our experimental data, which demonstrates that the finite element model can successfully predict the temperature field variations in the growth cell. The FEM simulation will be useful to grow larger high-quality diamond crystal by using the TGM. Furthermore, this method will be helpful in designing better cells and improving the growth process of gem-quality diamond crystal.

作者李战厂贾晓鹏黄国锋胡美华李勇颜丙敏马红安

机构地区 State Key Laboratory of Superhard Materials School of Physics and Electronic Engineering

出处《Chinese Physics B》 SCIE EI CAS CSCD 2013年第1期363-367,共5页 中国物理B（英文版）

基金 Project supported by the National Natural Science Foundation of China (Grant Nos. 51071074, 51172089, and 51171070) the Program for New Century Excellent Talents in University of Ministry of Education of China

关键词 temperature field finite element method single crystal growth diamond temperature field, finite element method, single crystal growth diamond

分类号 O782 [理学—晶体学]

作者简介 Corresponding author. E-mail： maha@jlu.edu.cn

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参考文献29

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FEM simulations and experimental studies of the temperature field in a large diamond crystal growth cell 被引量：6

参考文献29

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