Your search keyword '"Glicksman, M. E"' showing total 17 results

1. Physical Vapor Transport of Mercurous Chloride Crystals: Design of a Microgravity Experiment

Author

Duval, W, M. B, Singh, N. B, and Glicksman, M. E

Subjects

Solid-State Physics

Abstract

Flow field characteristics predicted from a computational model show that the dynamical state of the flow, for practical crystal growth conditions of mercurous chloride, can range from steady to unsteady. Evidence that the flow field can be strongly dominated by convection for ground-based conditions is provided by the prediction of asymmetric velocity profiles bv the model which show reasonable agreement with laser Doppler velocimetry experiments in both magnitude and planform. Unsteady flow is shown to be correlated with a degradation of crystal quality as quantified by light scattering pattern measurements, A microgravity experiment is designed to show that an experiment performed with parameters which yield an unsteady flow becomes steady (diffusive-advective) in a microgravity environment of 10(exp -3) g(sub 0) as predicted by the model, and hence yields crystals with optimal quality.

Published

1997

2. Growth and characterization of lead bromide crystals

Author

Singh, N. B, Gottlieb, M, Henningsen, T, Hopkins, R. H, Mazelsky, R, Glicksman, M. E, Coriell, S. R, Santoro, G. J, and Duval, W. M. B

Subjects

Materials Processing

Abstract

Lead(II) bromide was purified by a combination of directional freezing and zone-refining methods. Differential thermal analysis of the lead bromide showed that a destructive phase transformation occurs below the melting temperature. This transformation causes extensive cracking, making it very difficult to grow a large single crystal. Energy of phase transformation for pure lead bromide was determined to be 24.67 cal/g. To circumvent this limitation, crystals were doped by silver bromide which decreased the energy of phase transformation. The addition of silver helped in achieving the size, but enhanced the inhomogeneity in the crystal. The acoustic attenuation constant was almost identical for the pure and doped (below 3000 ppm) crystals.

Published

1992

3. Effect of growth conditions on the quality of lead bromide crystals

Author

Singh, N. B, Gottlieb, M, Henningsen, T, Hopkins, R. H, Mazelsky, R, Glicksman, M. E, Coriell, S. R, Duval, W. M. B, and Santoro, G. J

Subjects

Materials Processing

Abstract

Single crystals of pure and doped lead bromide were grown by the Bridgman method in different convective conditions. The convection level was varied by changing the thermal and solutal Rayleigh number. The homogeneity in refractive index, and hence the optical quality, was estimated by examining the optical distortion, birefringence interferograms, and laser scattering through the crystal. The optical quality of the crystal varied significantly with the variation of convection level during the crystal growth. The critical concentration of the solute was estimated for several values of growth velocity by numerical analysis at the thermal gradient of 20 K/cm.

Published

1992

4. Thermodynamic reactivity, growth and characterization of mercurous halide crystals

Author

Singh, N. B, Gottlieb, M, Henningsen, T, Hopkins, R. H, Mazelsky, R, Singh, M, Glicksman, M. E, and Paradies, C

Subjects

Solid-State Physics

Abstract

Thermodynamic calculations were carried out for the Hg-X-O system (X = Cl, Br, I) to identify the potential sources of contamination and relative stability of oxides and oxy-halide phases. The effect of excess mercury vapor pressure on the optical quality of mercurous halide crystal was studied by growing several mercurous chloride crystals from mercury-rich composition. The optical quality of crystals was examined by birefringence interferometry and laser scattering studies. Crystals grown in slightly mercury-rich composition showed improved optical quality relative to stoichiometric crystals.

Published

1992

5. Free dendritic growth in viscous melts - Cyclohexanol

Author

Singh, N. B and Glicksman, M. E

Subjects

Solid-State Physics

Abstract

Experiments were carried out to measure the growth speed, V, and dendritic tip radius, R, of highly purified cyclohexanol. The data show that VR-squared = constant over the entire experimentally observed supercooling range, Delta T is between 0.1 and 1 K. The stability parameter estimated from this result indicates that sigma(asterisk) = 0.027, a value in good agreement with the values of sigma(asterisk) found for the cubic plastic crystals succinonitrile pivalic acid. Cyclohexanol differs from other carefully measured plastic crystals in that the viscosity of its melt at the melting point is about 20 times higher, so gravity-induced convection remains weak even at small supercoolings.

Published

1989

6. Effects of crystal-melt interfacial energy anisotropy on dendritic morphology and growth kinetics

Author

Glicksman, M. E and Singh, N. B

Subjects

Solid-State Physics

Abstract

Morphological and kinetic studies of succinonitrile, a BCC crystal with a low (0.5 percent) anisotropy and pivalic acid, and FCC crystal with relatively large (5 percent) anisotropy in solid-liquid interfacial energy, show clearly that anisotropy in the solid-liquid interfacial energy does not affect the tip radius-velocity relationship, but has a profound influence on the tip region and the rate of amplification of branching waves. Anisotropy of the solid-liquid interfacial energy may be one of the key factors by which the microstructural characteristics of cast structures reflect individual material behavior, especially crystal symmetry.

Published

1989

7. Measurement of the diffusion coefficient of acetone in succinonitrile at its melting point

Author

Chopra, M. A, Glicksman, M. E, and Singh, N. B

Subjects

Thermodynamics And Statistical Physics

Abstract

The diffusion coefficient of acetone in liquid succinonitrile at 331.1 K was determined using the method of McBain and Dawson (1935). Only dilute mixtures of SCN-acetone were studied. The interdiffusion constant was determined to be 0.0000127 sq cm/s and was essentially independent of the acetone concentration over the range investigated (0.5 to 18 mol pct acetone).

Published

1988

8. Preparation of multistage zone-refined materials for thermochemical standards

Author

Rubinstein, E, Glicksman, M. E, Mangum, B. W, Fang, Q. T, and Singh, N. B

Subjects

Materials Processing

Abstract

This paper describes the steps of a two-step zone purification procedure for completed minicells filled with ultrahigh-purity succinonitrile (SCN) in which the CNS is under its own vapor pressure. The solid-liquid equilibrium, as determined by melting and freezing point measurements, is therefore considered to be a realization of the triple-point. The freezing-point plateaus measured at a variety of bath temperatures demonstrated both the fundamental reproducibility of the measurement for a given sample and the lack of dependence of that measurement on the bath temperature which controls the freezing rate. The measurement reproducibility and the sample consistency indicate that the method described is indeed suitable for the preparation of pure material which can be used for the purposes of thermistor and thermometer calibration at 58.0796 + or - 0.0015 C.

Published

1988

9. Coupled convective instabilities at crystal-melt interfaces

Author

Coriell, S. R, Mcfadden, G. B, Boisvert, R. F, Glicksman, M. E, and Fang, Q. T

Subjects

Fluid Mechanics And Heat Transfer

Abstract

The stability of the parallel flow between a vertical crystal-melt interface and a vertical wall held at a temperature above the melting point of the crystal is analyzed for Prandtl numbers, P, ranging from 0.01 to 100. Three modes of instability occur: (1) a buoyant mode, (2) a shear mode, and (3) a coupled crystal-melt mode. The buoyant and shear modes are similar to those that occur for flow between two vertical rigid walls held at different temperatures. For Prandtl numbers greater than approximately two, the coupled crystal-melt mode occurs at a lower Grashof number than the other two modes. Specific results are given for succinonitrile (P = 22.8) and lead (P = 0.0225). These calculations and similar calculations for a cylindrical geometry were motivated by and are in general agreement with recent experiments on succinonitrile.

Published

1984

10. Diffusional interactions among crystallites

Author

Glicksman, M. E., Wang, K. G., and Marsh, S. P.

Published

2001

11. Diffusion-limited crystal growth in silicate systems: similarity with high-pressure liquid-phase sintering

Author

Lupulescu, A. and Glicksman, M. E.

Published

2000

12. Measurement of diffusion coefficient using a diaphragm cell: PbBr~2-AgBr system

Author

Singh, N. B., Glicksman, M. E., Coriell, S. R., Duval, W. M. B., Santoro, G. J., and DeWitt, R.

Published

1996

13. Use of microgravity to interpret dendritic growth kinetics at small supercoolings

Author

Tennenhouse, L. A., Koss, M. B., LaCombe, J. C., and Glicksman, M. E.

Published

1997

14. Measurement of thermal expansion in liquid succinonitrile and pivalic acid

Author

LaCombe, J. C., Oudemool, J. L., Koss, M. B., Bushnell, L. T., and Glicksman, M. E.

Published

1997

15. Effects of convection during the physical vapor transport process: application of laser Doppler velocimetry

Author

Kim, G. T., Lin, J. T., Jones, O. C., Glicksman, M. E., Duval, W. M. B., and Singh, N. B.

Published

1996

16. The Clapeyron effect in succinonitrile: applications to crystal growth

Author

LaCombe, J. C., Koss, M. B., Tennenhouse, L. A., Winsa, E. A., and Glicksman, M. E.

Published

1998

17. Quantification of crystal morphology

Author

Glicksman, M. E., Koss, M. B., Fradkov, V. E., and Rettenmayr, M. E.

Published

1994