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Results 1 to 25 of 6902

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Crystallization in a laboratory chamber furnaceCABRIC, B; PAVLOVIC, T; ZIZIC, B et al.Journal of applied crystallography. 1994, Vol 27, issn 0021-8898, p. 199, 2Article

Continuous fractional crystallization on a moving cooled beltOSSIPOV, P.International journal of heat and mass transfer. 1998, Vol 41, Num 4-5, pp 691-697, issn 0017-9310Article

Regular perturbation expansion solution for steady nonclassical needle crystal growthYU, D.-S; XU, J.-J.Journal of crystal growth. 1998, Vol 187, Num 2, pp 314-326, issn 0022-0248Article

Programming the crystallization rate along a Bridgman test tubeCABRIC, B; ARNAUT, S; CVJETKOVIC, V et al.Crystal research and technology (1979). 1997, Vol 32, Num 3, issn 0232-1300, p. 485Article

Heat and mass transfer during crystal growthKAKIMOTO, K; OZOE, H.Computational materials science. 1998, Vol 10, Num 1-4, pp 127-133, issn 0927-0256Conference Paper

A technique for crystal growing in a chamber furnaceCABRIC, B; PAVLOVIC, T; ZIZIC, B et al.Zeitschrift für Kristallographie. 1995, Vol 210, Num 1, issn 0044-2968, p. 56Article

Synthesis and characterization of a family of two related quaternary selenides : Na8Eu2(Si2Se6)2 and Na9Sm(Ge2Se6)2MARTIN, Benjamin R; POLYAKOVA, Larisa A; DORHOUT, Peter K et al.Journal of alloys and compounds. 2006, Vol 408-12, pp 490-495, issn 0925-8388, 6 p.Conference Paper

Integral solutions of diffusion-controlled dendrite tip growthTONG, X; BECKERMANN, C.International journal of heat and mass transfer. 1998, Vol 41, Num 23, pp 4025-4029, issn 0017-9310Article

Crystallization benchCABRIC, B; PAVLOVIC, T.Journal of applied crystallography. 2000, Vol 33, pp 387-388, issn 0021-8898, 2Article

Experimental study of a vertical bridgman configurationSARDA, A; DELAUNAY, D.Experimental heat transfer. 1993, Vol 6, Num 4, pp 345-365, issn 0891-6152Article

A century of sapphire crystal growth: Origin of the EFG methodHARRIS, Daniel C.Proceedings of SPIE, the International Society for Optical Engineering. 2009, Vol 7425, issn 0277-786X, isbn 0-8194-7715-X 978-0-8194-7715-6, 74250P.1-74250P.12Conference Paper

Analysis of crystallization of a supercooled melt by the integral balance methodSAMOILOVICH, Yu. A; TIMOSHPOL'SKII, V. I; TRUSOVA, I. A et al.Journal of engineering physics and thermophysics. 2001, Vol 74, Num 1, pp 199-207, issn 1062-0125Article

Relevance of cooling rates on formation from the melt of superconducting bismuth-based cuprate phasesNEVES, M. A; DA SILVEIRA, M. F; SOARES, V et al.Physica. C. Superconductivity and its applications. 2001, Vol 354, Num 1-4, pp 391-395Conference Paper

Comments on: The maximum velocity principle for dendritic growth from a supercooled melt by Anestiev L. A. et alLAXMANAN, V.Materials science & engineering. A, Structural materials : properties, microstructure and processing. 1998, Vol 242, Num 1-2, pp 299-303, issn 0921-5093Article

Advanced sputtering techniques for high rate-, plasma free- deposition and excellent target utility with uniform erosionKADOKURA, S; NAOE, M.Vacuum. 1998, Vol 51, Num 4, pp 683-686, issn 0042-207XArticle

Model-predictive control of the Czochralski crystallization process. Part I. Conduction-dominated meltIRIZARRY-RIVERA, R; SEIDER, W. D.Journal of crystal growth. 1997, Vol 178, Num 4, pp 593-611, issn 0022-0248Article

Marangoni convection around voids in Bridgman growthNAUMANN, R. J.Journal of crystal growth. 1995, Vol 154, Num 1-2, pp 156-162, issn 0022-0248Article

A model for the calculation of the purification efficiency of a solid layer melt crystallization processWANGNICK, K; ULRICH, J.Crystal research and technology (1979). 1994, Vol 29, Num 3, pp 349-356, issn 0232-1300Article

An ultrahigh vacuum Czochralski crystal growth system using either hot or cold cruciblesFORT, D.Review of scientific instruments. 1993, Vol 64, Num 11, pp 3209-3214, issn 0034-6748Article

Removal of Copper Vacancies in Cuprous Oxide Single Crystals Grown by the Floating Zone MethodCHANG, Kelvin B; FRAZER, Laszlo; SCHWARTZ, Johanna J et al.Crystal growth & design. 2013, Vol 13, Num 11, pp 4914-4922, issn 1528-7483, 9 p.Article

The effects of Na and some additives on nitrogen dissolution in the Ga-Na system: A growth mechanism of GaN in the Na flux methodKAWAMURA, F; MORISHITA, M; OMAE, K et al.Journal of materials science. Materials in electronics. 2005, Vol 16, Num 1, pp 29-34, issn 0957-4522, 6 p.Article

Glass-encapsulated single-crystal nanowires and filiform nanostructures fabricationBADINTER, E; HUBER, T; IOISHER, A et al.SPIE proceedings series. 2004, pp 257-268, isbn 0-8194-5324-2, 12 p.Conference Paper

Cooler for obtaining crystals in a crucible furnaceCABRIC, B; JANICIJEVIC, A.Journal of applied crystallography. 2003, Vol 36, issn 0021-8898, p. 950, 3Article

Computational analysis of marangoni effects during floating zone growth under microgravity conditionsBENNACER, R; EL GANAOUI, M; SEMMA, E et al.International heat transfer conference. 2002, pp 327-332, isbn 2-84299-308-X, 6 p.Conference Paper

Containerless solidification processing in microgravity using drop tube system filled with bubbles (DTS-B)YOSHIDA, J; JOH, Y; IWASAKI, H et al.Journal of materials science letters. 2000, Vol 19, Num 4, pp 311-314, issn 0261-8028Article

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