Near-Surface Deformed Layers on Rolled Aluminum Alloys

Near-surface deformed layers, which are characterized by nano-sized fine grains, are generated in aluminum alloys by hot and cold rolling. During the rolling processes, the alloy surface and near-surface regions experience a high level of shear deformation that results in significant microstructure...

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Bibliographic Details
Published in:Metallurgical and materials transactions. A, Physical metallurgy and materials science Physical metallurgy and materials science, 2011-05, Vol.42 (5), p.1373-1385
Main Authors: Zhou, X., Liu, Y., Thompson, G. E., Scamans, G. M., Skeldon, P., Hunter, J. A.
Format: Article
Language:English
Subjects:
Alloys
Aluminum
Annealing
Characterization and Evaluation of Materials
Chemistry and Materials Science
Cold
Grain growth
Hot rolling
Magnesium
Materials Science
Mechanical properties
Metallic Materials
Metallurgy
Microstructure
Nanotechnology
Population density
Shear strain
Structural Materials
Surfaces and Interfaces
Thin Films
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Summary:Near-surface deformed layers, which are characterized by nano-sized fine grains, are generated in aluminum alloys by hot and cold rolling. During the rolling processes, the alloy surface and near-surface regions experience a high level of shear deformation that results in significant microstructure refinement, leading to formation of near-surface deformed layers with microstructures different from that of the underlying bulk alloy. Two types of near-surface deformed layers are observed. Type A is characterized by fine grains with grain boundaries decorated by oxide particles; type B is characterized also by fine grains but with the grain boundaries free of oxide particles. The high levels of shear deformation result in dynamic recrystallization. Together with mechanical alloying, this is responsible for the formation of the near-surface deformed layer. Furthermore, the structure in the near-surface deformed layer can survive the typical annealing process particularly if the grain boundaries are pinned by oxide particles.
ISSN:1073-5623
1543-1940
DOI:10.1007/s11661-010-0538-2