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Microstructural evolution upon heat treatments and its effect on corrosion in Al-Zn-Mg alloys containing Sc and Zr

Kaixian Wang, Dengfeng Yin, Yingchao Zhao, Andrej Atrens, Ming‐Chun Zhao

2020Journal of Materials Research and Technology50 citationsDOIOpen Access PDF

Abstract

Different contents of Sc and Zr were alloyed into Al-Zn-Mg alloys: Alloy A (0 pct Sc + 0 pct Zr), Alloy B (0.19 pct Sc + 0.09 pct Zr), and Alloy C (0.19 pct Sc + 0.18 pct Zr). The combined alloying of Sc and Zr promoted the primary phase of Al-Zn-Mg alloys to dissolve into the matrix during cold rolling, and produced Al3(Sc,Zr) precipitates by subsequent aging. The combined alloying of Sc and Zr restrained the recrystallization of Al-Zn-Mg alloys, and caused finer and more uniform grains by the two-stage solution. The distribution of texture was important to understand the microstructural evolution of alloys. The combined alloying of Sc and Zr with the two-stage solution promoted the increase of the cubic texture {001} <100>. The microstructural evolutions including the Al3(Sc,Zr) precipitates, the precipitation free zone (PFZ) width, the textures and the recrystallizations were the main factors affecting the corrosion resistance of the Al-Zn-Mg alloys containing Sc and Zr. Alloy C after the two-stage solution treatment followed by the two-stage aging had the best stress corrosion cracking (SCC) resistance and the highest electrochemical corrosion resistant properties.

Topics & Concepts

Materials scienceAlloyMetallurgyCorrosionPrecipitationStress corrosion crackingMicrostructureRecrystallization (geology)Texture (cosmology)BiologyArtificial intelligenceComputer sciencePaleontologyMeteorologyImage (mathematics)PhysicsAluminum Alloy Microstructure PropertiesAluminum Alloys Composites PropertiesCorrosion Behavior and Inhibition
Microstructural evolution upon heat treatments and its effect on corrosion in Al-Zn-Mg alloys containing Sc and Zr | Litcius