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Anomalous Mitigation in Phase Evolution Impacting Thermal Stability in a Rapidly Solidified AA5182 Al–Mg Alloy via Continuous Thin‐Strip Casting

Hesam Pouraliakbar, Andrew Howells, Mark Gallerneault, Vahid Fallah

2023Advanced Engineering Materials21 citationsDOIOpen Access PDF

Abstract

This study, for the first time, reports an anomalous phase evolution and its impact on the thermal and oxidation behavior of rapidly solidified AA5182 Al–Mg alloy strip fabricated using a novel thin‐strip (TS) continuous casting technique. The microstructural analysis reveals a through‐thickness gradient microstructure of distinct types, morphology, and fractions of nonequilibrium Al–Mn–Fe intermetallic and Al–Mg eutectic phases. The rapid solidification experienced in TS casting effectively mitigates the formation of phases, particularly with the Al–Mg (β‐Al 3 Mg 2 ) eutectic, being nearly absent from the near‐surface regions. The total fraction of formed phases is considerably lower than that in the slowly cooled direct‐chill counterpart. The solute macrosegregation also shows an inverse Mg segregation profile toward the strip surface primarily due to a higher degree of matrix supersaturation closer to the strip surface. Modeling of solidification successfully predicts the influence of cooling rate on the fractions of the nonequilibrium eutectic phase, agreeing well with the experimental data obtained from image analysis. Heat treating the samples over a broad temperature range unveiled unexpected improvements in oxidation resistance and excellent thermal stability, attributed to the absence of the eutectic β‐phase in subsurface regions. The research findings have practical implications for improving the properties of sheet Al–Mg alloys.

Topics & Concepts

Materials scienceEutectic systemIntermetallicMicrostructureCastingAlloyMetallurgyTemperature gradientSupersaturationPhase (matter)Thermal stabilityComposite materialThermodynamicsChemical engineeringChemistryEngineeringPhysicsOrganic chemistryQuantum mechanicsAluminum Alloy Microstructure PropertiesAluminum Alloys Composites PropertiesSolidification and crystal growth phenomena