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Numerical Heat Transfer, Part A: Applications
An International Journal of Computation and Methodology
Volume 24, 1993 - Issue 4
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Original Articles

Three-Dimensional Finite Element Method Simulation of Bridgman Crystal Growth and Comparision with Experiments

Minwu Yao Ohio Aerospace Institute, 2001 Aerospace Parkway, Brook Park, Ohio, 44142
&
Henry de Groh III NASA Lewis Research Center, MS 105-1, Cleveland, Ohio, 44135
Pages 393-412 | Received 30 Jun 1992, Accepted 09 Sep 1992, Published online: 16 Jan 2007

Citations (15)

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Read on this site (2)

Rong-Tsong Lee & Wu-Yao Chiou. (1997) EFFICIENT MULTILEVEL FINITE-ELEMENT APPROACH TO THREE-DIMENSIONAL PHASE-CHANGE PROBLEMS. Numerical Heat Transfer, Part B: Fundamentals 31:1, pages 73-89.
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Tien-Mo Shih, M. M. Ohadi & Wei Liu. (1996) LITERATURE SURVEY ON NUMERICAL HEAT TRANSFER (1992–1993). Numerical Heat Transfer, Part A: Applications 29:5, pages 441-484.
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Articles from other publishers (13)

D.J. Lee, S.S. Cha & N. Ramachandran. (2006) Application of stereoscopic tracking velocimetry for experimental and numerical investigation of directional solidification. Experimental Thermal and Fluid Science 30:3, pages 203-212.
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Andrew Yeckel, Geoffrey Compère, Arun Pandy & Jeffrey J. Derby. (2004) Three-dimensional imperfections in a model vertical Bridgman growth system for cadmium zinc telluride. Journal of Crystal Growth 263:1-4, pages 629-644.
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James E. Simpson, Suresh V. Garimella & Henry C. de GrohIIIIII. (2002) Experimental and Numerical Investigation of the Bridgman Growth of a Transparent Material. Journal of Thermophysics and Heat Transfer 16:3, pages 324-335.
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C.W. Lan, C.C. Liu & C.M. Hsu. (2002) An Adaptive Finite Volume Method for Incompressible Heat Flow Problems in Solidification. Journal of Computational Physics 178:2, pages 464-497.
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Jaroslav Mackerle. (2002) Crystals and polycrystals: FEM and BEM material modelling. Finite Elements in Analysis and Design 38:5, pages 461-475.
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S. Cha & N. Ramachandran. (2002) 3-D flow field diagnostics and validation studies using stereoscopic tracking velocimetry. 3-D flow field diagnostics and validation studies using stereoscopic tracking velocimetry.
James E. Simpson, Suresh V. Garimella, Henry C. de GrohIIIIII & Reza Abbaschian. (2001) Bridgman Crystal Growth of an Alloy With Thermosolutal Convection Under Microgravity Conditions. Journal of Heat Transfer 123:5, pages 990-998.
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C.W Lan, M.C Su & M.C Liang. (2000) A visualization and computational study of horizontal Bridgman crystal growth. Journal of Crystal Growth 208:1-4, pages 717-725.
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M.C. Liang & C.W. Lan. (1997) Three-dimensional thermocapillary and buoyancy convections and interface shape in horizontal Bridgman crystal growth. Journal of Crystal Growth 180:3-4, pages 587-596.
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Krisanne Edwards & Jeffrey J. Derby. (1997) Understanding horizontal Bridgman shelf growth of cadmium telluride and cadmium zinc telluride. I. Heat and momentum transfer. Journal of Crystal Growth 179:1-2, pages 120-132.
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S Brandon. (1997) Flow fields and interface shapes during horizontal Bridgman growth of fluorides. Modelling and Simulation in Materials Science and Engineering 5:3, pages 259-274.
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Qiang Xiao, Satheesh Kuppurao, Andrew Yeckel & Jeffrey J. Derby. (1996) On the effects of ampoule tilting during vertical Bridgman growth: three-dimensional computations via a massively parallel, finite element method. Journal of Crystal Growth 167:1-2, pages 292-304.
Crossref
Minwu Yao, Raghu Raman & Henry C. de GrohIIIIII. 1995. Computational Mechanics ’95. Computational Mechanics ’95 514 519 .

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