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Marshall Space Flight Center Projects |
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Dynamic
Selection of Three-Dimensional Interface Patterns in Directional
Solidification |
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 Understanding
of dendrite evolution has been dramatically increased by microgravity
experiments, principally in undercooled pure materials.- Understand the dynamics that lead to uniform and reproducible three-dimensional
pattern formation in materials, particularly alloys
- Obtain benchmark data required for establishing the detailed dynamics
of interface pattern selection during the solidification of alloys.
- A fundamental understanding of interface dynamics is central to
tailor microstructures to optimize materials properties.
 Dynamic
Selection of Three-Dimensional Interface Patterns in Directional
Solidification Quad Chart
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Microstructure Formation in Castings of Technical
Alloys under Diffusive and Magnetically-Controlled Convective Conditions
(MICAST) |
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 Defects
in directionally solidified dendritic alloys result in production
losses.
Misalignment of dendrite arms and macrosegregation are produced by
uncontrolled convection.- NASA’s interest is in enhancing
the mathematical modeling of solidification with
global objectives.
- A specific objective is the simulation
of solidification in castings of changing
cross section.
Microstructure
Formation in Castings of Technical Alloys under Diffusive and
Magnetically-Controlled Convective Conditions (MICAST) Quad Chart |
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Crystal Growth of Ternary Compound Semiconductors
(GTS) |
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 In
crystal growth there is a need to understand the relation between
processes in the fluid phase, both liquid and vapor, such as buoyancy
driven convection, the incorporation of impurities, and defects
in the resulting crystal.- Relation between fluid phase processes and the generation of defects
in a grown crystal is an outstanding problem in materials growth.
- Studies in microgravity will be compared with modeling and will
be used to optimize ground-based experiments.
Crystal
Growth of Ternary Compound Semiconductors (GTS) Quad Chart |
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Quasi-Crystalline Undercooled Alloys for Space Investigation
(QUASI) |
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 Determine
the influence of liquid and solid short-range order on the nucleation
barrier- Determination the composition dependence of nucleation rate and
evaluate a new coupled flux model for nucleation
- Correlate the nucleation kinetics with the local structure of the
liquids
- Correlate the local structure with containerless measurements of
thermophysical properties
- Determine changes in the growth rate of the solid as a function
of the complexity of the solid phase
Quasi-Crystalline
Undercooled Alloys for Space Investigation (QUASI) Quad Chart |
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Reduction of Defects in Germanium Silicon (RDGS)
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 Partially
detached crystals can be grown on Earth- Test the theory that solidification free of wall contact reduces
defect density
- Evaluate competing theories for the production of critical materials
by testing different growth configurations and using the space environment
Reduction
of Defects in Germanium Silicon (RDGS) Quad Chart |
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The Role of Convection and Growth Competition in Phase
Selection in Microgravity (LODESTARS) |
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- Complex
stainless steels can form a metastable dendritic ferrite phase, prior
to the formation of the stable austenite phase
- Determine governing factors behind kinetics of transformation in
these commercially relevant structural materials
- Determine the effects of fluid flow in nucleation of the second
phase, within the meta-stable phase in the mushy zone
- Correlate the local structure with containerless measurements of
thermophysical properties
The
Role of Convection and Growth Competition in Phase Selection in
Microgravity Quad Chart |
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Marshall Space Flight Center Facilities |
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Materials Science Research Rack (MSRR) |
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 To
provide a facility onboard the ISS to conduct materials science
research/technology experiments by:
- Providing a modular facility to accommodate up to two Experiment
Modules (EM)
- Providing for the facility integration of the ESA MSL EM
- Successfully supporting the planned investigations through
the mission
- Providing resources for experiment modules: power, data, vacuum
(resource and exhaust), cooling, microgravity isolation, video.
Materials
Science Research Rack (MSRR) Quad Chart |
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Microgravity Science Glovebox (MSG) |
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 To
provide a facility onboard the ISS to conduct research/technology
demonstrations by:
- Providing an enclosed isolated working volume with distributed
resources for the implementation and observation of Investigations
- Providing for facility integration and support of selected
experiments
- Successfully supporting the operation of research investigations/technology
demonstrations through their assigned mission segments
Microgravity
Science Glovebox (MSG) Quad Chart |
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