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Magnetic Effects on Microstructure and Solute Plume Dynamics of Directionally Solidifying Ga-In Alloy

Andrew Kao, N. Shevchenko, Shengya He, Peter Lee, Sven Eckert, K. Pericleous

2020JOM15 citationsDOIOpen Access PDF

Abstract

Abstract The effects of applying a 0.2-T transverse magnetic field on a solidifying Ga-25 wt%In alloy have been investigated through a joint experimental and numerical study. The magnetic field introduced significant changes to both the microstructure and the dynamics of escaping high-concentration Ga plumes. Plume migration across the interface was quantified and correlated to simulations to demonstrate that thermoelectric magnetohydrodynamics (TEMHD) is the underlying mechanism. TEMHD introduced macrosegregation within the dendritic structure, leading to the formation of a stable “chimney” channel by increasing the solutal buoyancy in the flow direction. The resulting pressure difference across the solidification front introduced a secondary hydrodynamic phenomenon that subsequently caused solute plume migration.

Topics & Concepts

PlumeBuoyancyMicrostructureMaterials scienceAlloyDirectional solidificationMechanicsMagnetic fieldMagnetohydrodynamicsFlow (mathematics)ThermodynamicsMetallurgyPhysicsQuantum mechanicsSolidification and crystal growth phenomenaAluminum Alloy Microstructure PropertiesMetallurgical Processes and Thermodynamics