书籍详情
Floating Zone Convection,In Crystal Growth Modeling(影印版)
作者:W.R.Hu,Z.M.Tang
出版社:科学出版社
出版时间:2003-12-01
ISBN:9787030108678
定价:¥80.00
内容简介
The microgravity research, as a branch of the advanced sciences and a spe- cialized field of high technology, has been made in China since the late 1980's. The research group investigating microgravity fluid physics consisted of our col- leagues and the authors in the Institute of Mechanics of the Chinese Academy of Sciences (CAS), and we pay special attention to the floating zone convection as our first research priority. Now, the research group has expanded and is a part of the National Microgravity Laboratory of the CAS, and the research fields have been extended to include more subjects related to microgravity science. Howev- er, the floating zone convection is still an important topic that greatly holds our research interests.
作者简介
暂缺《Floating Zone Convection,In Crystal Growth Modeling(影印版)》作者简介
目录
1.Modelsoffloatingzoneconvection
1.1Floating-zonecrystalgrowth
1.2Physicalmodel
1.3Hydrodynamicmodel
1.4Mathematicalmodel
References
2.Basicfeaturesoffloatingzoneconvection
2.1Equationsandboundaryconditions
2.2SimplesolutionsofFZconvection
2.3Solutionfortwo-layersflow
2.4Numericalsimulation
2.5Onsetofoscillation
References
3.ExperimentalmethodofFZconvection
3.1Ground-basedsimulationexperimentsforPr≥1
3.2Temperatureandvelocityoscillations
3.3Opticaldiagnosticsoffreesurfaceoscillation
3.4Criticalparameters
3.5Microgravityexperiments
3.6Ground-basedsimulationexperimentforPr《1
References
4.Mechanismontheonsetofoscillatoryconvection
4.1Orderofmagnitudeanalysis
4.2Mechanismofhydrothermalinstability
4.3Linearstabilityanalysis
4.4Energyinstabilityofthermocapillaryconvection
4.5Unsteadynumericalsimulationof2Dand3D
4.6TwobifurcationtransitionsinthecaseofsmallPrnumberfluid
4.7TwobifurcationtransitionsinthecaseoflargePrnumberfluid
4.8Transitiontoturbulence
References
5.Liquidbridgevolumeasacriticalgeometricalparameter
5.1Criticalgeometricalparameters
5.2Ground-basedandmierogravityexperiments
5.3Instabilityanalysesofalargeprandtlnumber(Pr≥1)fluid
5.4Instabilityanalysesofasmallprandtlnumber(Pr《1)fluid
5.5Numericalsimulationontwobifurcationprocess
References
6.Theoreticalmodelofcrystalgrowthbythefloatingzonemethod
6.1Concentrationdistributioninapurediffusionprocess
6.2Solutalcapillaryconvectionanddiffusion
6.3Couplingwithphasechangeconvection
6.4Engineeringmodeloffloatingzonetechnique
References
7.InfluenceofappliedmagneticfieldontheFZconvection
7.1Striationduetothetime-dependentconvection
7.2Appliedsteadymagneticfieldandrotationalmagneticfield
7.3Magneticfielddesignforfloatinghalfzone
7.4Influenceofmagneticfieldonsegregation
References
8.Influenceofresidualaccelerationandg-jitter
8.1Residualaccelerationinmicrogravityexperiments
8.2Orderofmagnitudeanalyses(OMA)
8.3Rayleighinstabilityduetoresidualacceleration
8.4Ground-basedexperimentaffectedbyavibrationfield
8.5Numericalsimulationofalowfrequencyg-jitter
8.6Numericalsimulationofahighfrequencyg-jitter
References
1.1Floating-zonecrystalgrowth
1.2Physicalmodel
1.3Hydrodynamicmodel
1.4Mathematicalmodel
References
2.Basicfeaturesoffloatingzoneconvection
2.1Equationsandboundaryconditions
2.2SimplesolutionsofFZconvection
2.3Solutionfortwo-layersflow
2.4Numericalsimulation
2.5Onsetofoscillation
References
3.ExperimentalmethodofFZconvection
3.1Ground-basedsimulationexperimentsforPr≥1
3.2Temperatureandvelocityoscillations
3.3Opticaldiagnosticsoffreesurfaceoscillation
3.4Criticalparameters
3.5Microgravityexperiments
3.6Ground-basedsimulationexperimentforPr《1
References
4.Mechanismontheonsetofoscillatoryconvection
4.1Orderofmagnitudeanalysis
4.2Mechanismofhydrothermalinstability
4.3Linearstabilityanalysis
4.4Energyinstabilityofthermocapillaryconvection
4.5Unsteadynumericalsimulationof2Dand3D
4.6TwobifurcationtransitionsinthecaseofsmallPrnumberfluid
4.7TwobifurcationtransitionsinthecaseoflargePrnumberfluid
4.8Transitiontoturbulence
References
5.Liquidbridgevolumeasacriticalgeometricalparameter
5.1Criticalgeometricalparameters
5.2Ground-basedandmierogravityexperiments
5.3Instabilityanalysesofalargeprandtlnumber(Pr≥1)fluid
5.4Instabilityanalysesofasmallprandtlnumber(Pr《1)fluid
5.5Numericalsimulationontwobifurcationprocess
References
6.Theoreticalmodelofcrystalgrowthbythefloatingzonemethod
6.1Concentrationdistributioninapurediffusionprocess
6.2Solutalcapillaryconvectionanddiffusion
6.3Couplingwithphasechangeconvection
6.4Engineeringmodeloffloatingzonetechnique
References
7.InfluenceofappliedmagneticfieldontheFZconvection
7.1Striationduetothetime-dependentconvection
7.2Appliedsteadymagneticfieldandrotationalmagneticfield
7.3Magneticfielddesignforfloatinghalfzone
7.4Influenceofmagneticfieldonsegregation
References
8.Influenceofresidualaccelerationandg-jitter
8.1Residualaccelerationinmicrogravityexperiments
8.2Orderofmagnitudeanalyses(OMA)
8.3Rayleighinstabilityduetoresidualacceleration
8.4Ground-basedexperimentaffectedbyavibrationfield
8.5Numericalsimulationofalowfrequencyg-jitter
8.6Numericalsimulationofahighfrequencyg-jitter
References
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