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TEMHD Effects on Solidification Under Microgravity ConditionsAn unexplored potential exists to control microstructure evolution through the use of external DC magnetic fields. Thermoelectric currents form during solidification and interact with this external field to drive microscopic fluid dynamics within the inter-dendritic region. The convective heat and mass transport can lead to profound changes on the dendritic structure. In this paper the effect of high magnetic fields is demonstrated through the use of both 3-dimensional and 2-dimensional numerical models. The results show that the application of a magnetic field causes significant disruption to the dendritic morphology. Investigation into the underlying mechanism gives initial indicators of how external magnetic fields can either lead to unexpected growth behaviour, or alternatively can be used to control the evolution of microstructure in undercooled melts as encountered in levitated droplet solidification.
Document ID
20120015591
Acquisition Source
Marshall Space Flight Center
Document Type
Conference Paper
Authors
Kao, Andrew
(Greenwich Univ. London, United Kingdom)
Pericleous, Koulis
(Greenwich Univ. London, United Kingdom)
Date Acquired
August 26, 2013
Publication Date
September 1, 2012
Publication Information
Publication: Materials Research in Microgravity 2012
Subject Category
Space Processing
Distribution Limits
Public
Copyright
Public Use Permitted.
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