REFERENCES
- R. A. Heising , Quartz Crystals for Electrical Circuits, Their Design and Manufacture , Van Nostrand , New York , 1946 .
- R. A. Laudise and R. L. Barns , Perfection of Quartz and its Connection to Crystal Growth , IEEE trans. Ultrasonics, Ferroelectrics, Frequency Control , vol. 35 , no. 3 , pp. 277 – 287 , 1988 . [CSA]
- P. Vigoureus , Quartz Oscillators and Their Applications , Eyre and Spottiswoode , London, 1939 .
- R. A. Laudise , The Growth of Single Crystals , Prentice-Hall , Englewood Cliffs , NJ , 1970 .
- V. A. Kuznetsov and A. N. Lobachev , Hydrothermal Method for the Growth of Crystals , Sov. Phys. — Crystallogr. , vol. 17 , no. 4 , pp. 775 – 804 , 1973 . [CSA]
- S. Taki , Improvement of Growth Process and Characterization of Quartz Crystals , Prog. Crystal Growth Charact. , vol. 23 , pp. 313 – 338 , 1991 . [CSA]
- N. Annamalai and T. Gopichand , Natural Convection Heat Transfer During Hydrothermal Crystal Growth , Chem. Ing. Tech. , vol. 56 , no. 12 , pp. 950 – 951 , 1984 . [CSA] [CROSSREF]
- G. M. Morey and E. Ingerson , A Bomb for Use in Hydrothermal Experimentation , Am. Mineral. , vol. 22 , pp. 1121 – 1122 , 1937 . [CSA]
- H. Li , E. A. Evans , and G.-X. Wang , Flow of Solution in Hydrothermal Autoclaves with Various Aspect Ratios , J. Crystal Growth , vol. 256 , no. 1–2 , pp. 146 – 155 , 2003 . [CSA]
- H. Li , G.-X. Wang , and E. A. Evans , Three-Dimensional Flow of Solution in an Autoclave Subjected to Non-Uniform Heating—effects of a Baffle on Flow and Temperature Separations , J. Crystal Growth , vol. 271 , no. 1–2 , pp. 257 – 267 , 2004 . [CSA]
- H. Li , E. A. Evans , and G. X. Wang , Single- and Multi-hole Baffles—A Heat Transfer and Fluid Flow Control for Hydrothermal Growth , J. Crystal Growth , vol. 275 , no. 3–4 , pp. 561 – 571 , 2005 . [CSA]
- H. Li , M. Braun , and C. Xing , Fluid Flow and Heat Transfer in a Cylindrical Model Hydrothermal Reactor , J. Crystal Growth , vol. 289 , no. 1 , pp. 207 – 216 , 2006 . [CSA] [CROSSREF]
- K. Kurpisz and A. J. Nowak , Inverse Thermal Problems , pp. 217 – 229 , Computational Mechanics Publications , Southampton , UK , 1995 .
- Z. R. Li , M. Prudhomme , and T.H. Nguyen , A Numerical Solution for the Inverse Natural-Convection Problem , Numer. Heat Transfer B , vol. 28 , no. 3 , pp. 307 – 321 , 1995 . [CSA]
- O. M. Alifanov , Inverse Heat Transfer Problems , pp. 227 – 328 , Springer-Verlag , New York , 1994 .
- Q. Chen , V. Prasad , A. Chatterje , and J. Larkin , A Porous Media-Based Transport Model for Hydrothermal Growth , J. Crystal Growth , vol. 198/199 , pp. 710 – 715 . 1999 . [CSA]
- B. Roux , O. Louchart , and O. Terhmina , Hydrodynamic Aspect of Hydrothermal Synthesis of Quartz Bulk Flow Regimes , J. Physique IV (Colloque C2, supplement au J. de Physique III) , vol. 4 , pp. C2 3 – 11 , 1994 . [CSA]
- D. C. Wilcox , Turbulence modeling for CFD , DCW Industries , La Cañada , CA , 1994.
- T. Luttich , A. Mhamdi , and W. Marquardt , Design, Formulation, and Solution of Multidimensional Inverse Heat Conduction Problems , Numer. Heat Transfer B , vol. 47 , no. 2 , pp. 111 – 133 , 2005 . [CSA]
- D. M. Trujillo and H. R. Busby , Practical Inverse Analysis in Engineering , pp. 87 – 109 , CRC Press , Boca Raton , FL , 1997 .
- A. Behbahani-nia and F. Kowsary , A Direct Transformation Matrices Method for Solution of Inverse Heat Conduction Problems , Numer. Heat Transfer B , vol. 46 , no. 4 , pp. 371 – 386 , 2004 . [CSA] [CROSSREF]