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Science demonstrations (1976)

Snyder, R. S. ; Bourgeois, S. ; Facemire, B. ; [et al.]

In: CASI

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Publication Date: 2006-01-12

Description: Three demonstrations of scientific concepts concerning liquids were performed during the Apollo-Soyuz Test Project mission. Chemical foaming, spreading of liquids, and capillary wicking were the subjects of each demonstration photographed in space. The results clearly illustrated the basic principles, and films suitable for educational uses are now available from the first author.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: Apollo-Soyuz Test Project; 9 p

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Non-ideality near the monotectic composition of a miscibility-gap type system - Succinonitrile-water (1989)

Facemire, B. R. ; Frazier, D. O.

In: Other Sources

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Publication Date: 2011-08-19

Description: Differential scanning calorimetry (DSC) of near monotectic succinonitrile-water solutions, fast-quenched in hydrophilic and hydrophobic DSC pans, indicate, by degree of undercooling, thst there may be significant dependence of final ingot microstructure on the pre-quench equilibration temperature. Partial molal-volume determinations from density data, along with DSC data, suggest the nature of temperature dependent component associations from 20 to 55 C in homogeneous solutions. The undercooling profile in a hydrophilic container is explained in terms of solution-composition shifts arising from the Gibbs surface excess. The evidence shows that temperature-dependent preferred component aggregates may modulate surface-composition gradients. Similar effects may be present through intermetallic compound formation in metallic monotectic alloys.

Keywords: INORGANIC AND PHYSICAL CHEMISTRY

Type: Thermochimica Acta (ISSN 0040-6031); 145; 301-329

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3

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Optical studies of a binary miscibility gap system (1985)

Facemire, B. R. ; Witherow, W. K.

In: Other Sources

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Publication Date: 2011-08-19

Description: Model transparent fluids are being studied to develop a better understanding of phase separation processes in binary miscibility-gap metal alloys. The model selected for the reported work is diethylene glycol-ethyl salicylate. This system is well characterized with respect to its phase diagram, density, surface and interfacial tensions, viscosity, and other pertinent physical properties. Minority phase growth, coalescence, and droplet motions are observed using holographic microscopy which is capable of recording particle densities up to 10 to the 7th particles/cu cm and is able to resolve particles as small as 2 to 3 microns in diameter throughout the entire volume of the test cell. Sequential holograms allow determination of droplet size distribution changes throughout the total volume with respect to time and temperature. This allows a direct method for testing various theories of droplet growth and ripening phenomena.

Keywords: CHEMISTRY AND MATERIALS (GENERAL)

Type: Journal of Colloid and Interface Science (ISSN 0021-9797); 104; 185-192

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Surface effects on phase distributions of a fast-quenched miscibility gap type system - Succinonitrile-water (1986)

Fanning, U. S. ; Facemire, B. R. ; Frazier, D. O.

In: Other Sources

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Publication Date: 2011-08-19

Description: If a binary homogeneous melt is cooled into an immiscible region, the newly formed second phase will generally have a density different from the parent phase, and will separate readily by sedimentation. Observation of solidification processes in microgravity indicates that outside of sedimentation, at least two other important effets can separate the phases: (1) preferential wetting, and (2) thermal migration of second-phase droplets due to interfacial tension gradients. The latter effect would drive the minority phase along the thermal gradient toward the hottest part (assuming the interfacial tension decreases with increasing temperature), which is usually away from the crucible wall. On the other hand, if the minority phase preferentially wets the crucible, a minority phase layer which thickens as initial solution compositions approach critical, will form adjacent to the solid surface and remain in the coldest region of the ingot. This study presents compelling preliminary evidence that these two effects do exist and that they compete with one another. However, the temperature dependence of preferential wetting below T(c) for the current system of study is, as yet, undetermined. These effects are sensitive to the initial concentration of a hypermonotectic solution cooling through a miscibility gap.

Keywords: CHEMISTRY AND MATERIALS (GENERAL)

Type: Acta Metallurgica (ISSN 001-6160); 34; 63-72

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5

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Three model space experiments on chemical reactions (1977)

Facemire, B. ; Grodzka, P.

In: CASI

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Publication Date: 2016-06-07

Description: Three investigations conducted aboard Skylab IV and Apollo-Soyuz involved phenomena that are of interest to the biochemistry community. The formaldehyde clock reaction and the equilibrium shift reaction experiments conducted aboard Apollo Soyuz demonstrate the effect of low-g foams or air/liquid dispersions on reaction rate and chemical equilibrium. The electrodeposition reaction experiment conducted aboard Skylab IV demonstrate the effect of a low-g environment on an electrochemical displacement reaction. The implications of the three space experiments for various applications are considered.

Keywords: INORGANIC AND PHYSICAL CHEMISTRY

Type: Bioprocessing in Space; p 67-76

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Studies of Model Immiscible Systems (1985)

Frazier, D. O. ; Witherow, W. K. ; Kaukler, W. F. ; [et al.]

In: CASI

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Publication Date: 2014-10-03

Description: The objectives are to use model transparent monotectics to obtain fundamental information applicable to two-phase systems in general, to apply this understanding to materials of interest in the Microgravity Science and Applications program, and to interpret results of flight experimental involving monotectic alloys. A number of model immiscible systems are in use to study various aspects of two-phase behavior within the miscibility gap and during solidification. Particle growth, coalescence and particle motions are under investigation using a holographic microscopy system. The system is capable of working with particle densities up to 10 to the 7th power particles/cubic centimeters through a 100 micron depth and can resolve particles of the order of 2 to 3 micron in diameter throughout the entire cell volume. Particle size, distribution changes with respect to time and temperature are observable from sequential holograms. Initial experiments using diethylene glycol/ethyl salicylate (DEG/ES) have demonstrated the usefulness of the technique. The thermal system controls temperature to at least plus or minus 0.001 K over the course of an experiment. A time-lapse film, made from holograms, of a succinonitrile/water solution shows particle size and number distribution changes with time under isothermal conditions. The observations are consistent with Ostwald ripening theory.

Keywords: ASTRONAUTICS (GENERAL)

Type: NASA, Washington Microgravity Sci. and Appl. Program Tasks; p 104-105

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Separation processes during binary monotectic alloy production (1984)

Frazier, D. O. ; Fanning, U. ; Facemire, B. R. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: Observation of microgravity solidification processes indicates that outside of sedimentation, at least two other important effects can separate the phases: critical-point wetting and spreading; and thermal migration of second-phase droplets due to interfacial tension gradients. It is difficult to study these surface tension effects while in a unit gravity field. In order to investigate the processes occurring over a temperature range, i.e., between a consolute point and the monotectic temperature, it is necessary to use a low-gravity environment. The MSFC drop tube (and tower), the ballistic trajectory KC-135 airplane, and the Space Shuttle are ideal facilities to aid formation and testing of hypotheses. Much of the early work in this area focuses on transparent materials so that process dynamics may be studied by optical techniques such as photography for viewing macro-processes; holography for studying diffusional growth; spinodal decomposition and coalescence; ellipsometry for surface wetting and spreading effects; and interferometry and spectroscopy for small-scale spatial resolution of concentration profiles.

Keywords: METALLIC MATERIALS

Type: NASA-TM-82579 , NAS 1.15:82579

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8

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Optical Studies of model binary miscibility gap system (1982)

Witherow, W. K. ; Nishioka, G. M. ; Facemire, B. R. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: In order to develop a better understanding of separation processes in binary miscibility gap metal alloys, model transparent fluid systems were studied. The system selected was diethylene glycol-ethyl salicylate which has convenient working temperatures (288 to 350 K), low toxicity, and is relatively easy to purify. The system is well characterized with respect to its phase diagram, density, surface and interfacial tensions, viscosity and other pertinent physical properties. Studies of migration of the dispersed phase in a thermal gradient were performed using conventional photomicroscopy. Velocities of the droplets of the dispersed phase were measured and compared to calculated rates which included both Stokes and thermal components. A holographic microscopy system was used to study growth, coalescence, and particle motions. Sequential holograms allowed determination of particle size distribution changes with respect to time and temperature. Holographic microscopy is capable of recording particle densities up to 10 to the 7th power particles/cu cm and is able to resolve particles of the order of 2 to 3 microns in diameter throughout the entire volume of the test cell. The reconstructed hologram produces a wavefront that is identical to the original wavefront as it existed when the hologram was made. The reconstructed wavefront is analyzed using a variety of conventional optical methods.

Keywords: INSTRUMENTATION AND PHOTOGRAPHY

Type: NASA-TM-82494 , NAS 1.15:82494

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9

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Determination of the succinonitrile-benzene and succinonitrile-cyclohexanol phase diagrams by thermal and UV spectroscopic analysis (1984)

Frazier, D. O. ; Facemire, B. ; Kaukler, W. F.

In: CASI

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Publication Date: 2019-06-28

Description: Equilibrium temperature-composition diagrams were determined for the two organic systems, succinonitrile-benzene and succinonitrile-cyclohexanol. Measurements were made using the common thermal analysis methods and UV spectrophotometry. Succinonitrile-benzene monotectic was chosen for its low affinity for water and because UV analysis would be simplified. Succinonitrile-cyclohexanol was chosen because both components are transparent models for metallic solidification, as opposed to the other known succinonitrile-based monotectics.

Keywords: INORGANIC AND PHYSICAL CHEMISTRY

Type: NASA-TM-82581 , NAS 1.15:82581

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10

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Evaluation of AAFE apparatus to measure residual and transient convection in zero-gravity (1978)

Witherow, W. K. ; Facemire, B. R. ; Ruff, R. C.

In: CASI

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Publication Date: 2019-06-27

Description: An evaluation apparatus which photographs convective and diffusive flows in crystal growth experiments is presented. Results in the following catagories are reported: (1) Human factors; (2) Electrical and mechanical; (3) Optical performance; and (4) Thermal performance.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: NASA-TM-78191

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