Microstructural Evolution in a 6060 Extrudable Al-Alloy: Integrated Modeling and Experimental Validation

Aristeidakis, John S. and Haidemenopoulos, Gregory N. and Bjørge, Ruben and Marioara, Calin D. and Kamoutsi, Helen and Giarmas, Evangelos and Rafailidis, Nikolaos (2024) Microstructural Evolution in a 6060 Extrudable Al-Alloy: Integrated Modeling and Experimental Validation. Materials, 17 (3). p. 545. ISSN 1996-1944

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Abstract

Desirable properties including strength, ductility and extrudability of 6060 Al-alloys are highly dependent on processing to control the development of microstructural features. In this study, the process chain of an extrudable 6060 Al-alloy was modeled in an Integrated Computational Materials Engineering framework and validated experimentally via quantitative SEM-EDX and TEM. All critical processing stages were considered including casting, homogenization heating and holding, extrusion cooling and two-stage aging. Segregation and intermetallics formation were accurately predicted and experimentally verified in the as-cast condition. Diffusion simulations predicted the dissolution of intermetallics and completion of β-AlFeSi to α-AlFeSi transformation during homogenization, in excellent agreement with quantitative SEM-EDX characterization. Precipitation simulations predicted the development of a β″ strengthening dispersion during extrusion cooling and aging. Needle-shaped β″ precipitates were observed and analyzed with quantitative high-resolution TEM, validating predictions. Ensuing precipitation strengthening was modeled in terms of aging time, presenting good agreement with yield strength measurements. Precipitate-Free Zones and coarse, metastable β-type particles on dispersoids and grain boundaries were investigated. The proposed integrated modeling and characterization approach considers all critical processing stages and could be used to optimize processing of extrudable 6xxx Al-alloys, providing insight to mechanisms controlling microstructural evolution and resulting properties.

Item Type: Article
Subjects: Oalibrary Press > Multidisciplinary
Depositing User: Managing Editor
Date Deposited: 24 Jan 2024 05:51
Last Modified: 24 Jan 2024 05:51
URI: http://asian.go4publish.com/id/eprint/3601

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