激光与红外
激光與紅外
격광여홍외
LASER & INFRARED
2014年
6期
640-644
,共5页
姚静%周海%卢一民%万汉城%王晓阳%李建
姚靜%週海%盧一民%萬漢城%王曉暘%李建
요정%주해%로일민%만한성%왕효양%리건
氟化钙(CaF2)%Fluent软件%垂直Bridgman法%数值模拟
氟化鈣(CaF2)%Fluent軟件%垂直Bridgman法%數值模擬
불화개(CaF2)%Fluent연건%수직Bridgman법%수치모의
CaF2%Fluent software%the vertical Bridgman method%numerical simulation
利用Fluent软件,模拟计算了垂直Bridgman法大尺寸氟化钙晶体生长的具体过程,研究了晶体生长过程中的热传递和熔体对流传热,分析了固相、液相和坩埚的热导率的差异对坩埚中心轴的轴向温度分布和轴向温度梯度以及界面处的径向温度分布和径向温度梯度的影响。分析结果表明:熔体对流传热的效果随晶体生长的不断进行逐渐减弱;固相、液相和坩埚的热导率的差异对坩埚中心轴的轴向温度分布和轴向温度梯度以及界面处的径向温度分布和径向温度梯度有重要影响;晶体的结晶速度和坩埚的下降速度存在不一致性。
利用Fluent軟件,模擬計算瞭垂直Bridgman法大呎吋氟化鈣晶體生長的具體過程,研究瞭晶體生長過程中的熱傳遞和鎔體對流傳熱,分析瞭固相、液相和坩堝的熱導率的差異對坩堝中心軸的軸嚮溫度分佈和軸嚮溫度梯度以及界麵處的徑嚮溫度分佈和徑嚮溫度梯度的影響。分析結果錶明:鎔體對流傳熱的效果隨晶體生長的不斷進行逐漸減弱;固相、液相和坩堝的熱導率的差異對坩堝中心軸的軸嚮溫度分佈和軸嚮溫度梯度以及界麵處的徑嚮溫度分佈和徑嚮溫度梯度有重要影響;晶體的結晶速度和坩堝的下降速度存在不一緻性。
이용Fluent연건,모의계산료수직Bridgman법대척촌불화개정체생장적구체과정,연구료정체생장과정중적열전체화용체대류전열,분석료고상、액상화감과적열도솔적차이대감과중심축적축향온도분포화축향온도제도이급계면처적경향온도분포화경향온도제도적영향。분석결과표명:용체대류전열적효과수정체생장적불단진행축점감약;고상、액상화감과적열도솔적차이대감과중심축적축향온도분포화축향온도제도이급계면처적경향온도분포화경향온도제도유중요영향;정체적결정속도화감과적하강속도존재불일치성。
With Fluent software,specific growth process of large size calcium fluoride crystals by the vertical Bridg-man method was simulated and calculated. The heat transfer and the melt convection of crystal growth process were investigated. The difference of the thermal conductivity of solid phase,liquid phase and crucible has effect on axial temperature profile and axial temperature gradient profile along the centerline of the crucible and radial temperature profile and radial temperature gradient profile at the solid-liquid interface was analyzed. The results show that the effect of the melt convection heat transfer becomes weak with continuous crystal growth;The difference of the thermal conductivity of solid phase,liquid phase and crucible has important effect on axial temperature profile and axial tem-perature gradient profile along the centerline of the crucible and radial temperature profile and radial temperature gra-dient profile at the solid-liquid interface;Rate of crystallization are inconsistent with descent velocity of crucible.