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Containerless low gravity processing of glass forming and immiscible alloys (1990)

Robinson, M. B. ; Andrews, J. Barry ; Briggs, Craig

In: CASI

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Publication Date: 2019-06-28

Description: Under normal one-g conditions immiscible alloys segregate extensively during solidification due to sedimentation of the more dense of the immiscible liquid phases. Immiscible (hypermonotectic) gold-rhodium alloys were processed in the 100 meter drop tube under low gravity, containerless conditions to determine the feasibility of producing dispersed structures. Three alloy compositions were utilized. Alloys containing 10 percent by volume of the gold-rich hypermonotectic phase exhibited a tendency for the gold-rich liquid to wet the outer surface of the samples. This wetting tendency led to extensive segregation in several cases. Alloys containing 80 and 90 percent by volume of the gold-rich phase possessed completely different microstructures from the 10 percent samples when processed under low-g, containerless conditions. Several samples exhibited microstructures consisting of well dispersed 2 to 3 microns diameter rhodium-rich spheres in a gold-rich matrix.

Keywords: MATERIALS PROCESSING

Type: NASA-CR-186999 , NAS 1.26:186999

Format: application/pdf

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Applications of containerless processing in the studies of metals and alloys (1991)

Hofmeister, W. H. ; Robinson, M. B. ; Bayuzick, R. J.

In: Other Sources

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Publication Date: 2019-07-13

Description: The use of containerless processing in nucleation and microstructural studies of alloys is reviewed in terms of approaches and recent results. Drop-tube studies of niobium based on a statistical approach are discussed, and experiments are described which permit the study of the solidification front across the surface of a specimen. The various alloys studied are reviewed in terms of facilitated observations of metastability, chemical homogeneity, and microstructural refinement. Heterogeneous nucleation is reported for a preexponential factor of 10 exp 27 and a critical free energy of 46-56kT. The theoretical relationship between undercooling and solidification velocity correlates with containerless test observations at large solute concentrations. Containerless processing is effective for studying the properties of liquid metals or accessing the metastable thermodynamic regime.

Keywords: MATERIALS PROCESSING

Type: AIAA/IKI Microgravity Science Symposium; May 13, 1991 - May 17, 1991; Moscow; USSR

Format: text

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The effect of processing conditions on solidified structures in immiscible systems (1991)

Schmale, A. L. ; Robinson, M. B. ; Sandlin, A. C. ; [et al.]

In: Other Sources

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Publication Date: 2019-08-27

Description: The incentive for low-gravity processing of immiscible alloys is usually tied to an attempt to eliminate sedimentation of the more dense immiscible liquid phase during processing. However, many other factors can influence the solidified structure of these alloys. For example, crucible wetting by one of the immiscible liquid phases during normal (non-directional) low-gravity solidification in a container has been shown to often lead to a completely separated structure. For containerless, low-gravity processing, alloy composition has a tremendous affect on the structure formed. During directional solidification, alloy composition, thermal gradient, solidification rate, convective instability and the miscibility gap height of the system all have a major effect on the structures obtained. This paper discusses the conditions necessary for the production of desired microstructures in each of these processing techniques. Examples are shown of samples processed under both desirable and undesirable conditions.

Keywords: MATERIALS PROCESSING

Type: Materials Science Forum (ISSN 0255-5476); p. 269-281.

Format: text

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