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Simultaneous improvement in corrosion resistance and hardness of a model 2xxx series Al-Cu alloy with the microstructural variation caused by Sc and Zr additions
Version 2 2024-05-30, 11:09Version 2 2024-05-30, 11:09
Version 1 2019-08-07, 21:08Version 1 2019-08-07, 21:08
journal contribution
posted on 2024-05-30, 11:09 authored by SK Kairy, B Rouxel, J Dumbre, J Lamb, TJ Langan, Thomas DorinThomas Dorin, Nick BirbilisNick Birbilis© 2019 Elsevier Ltd The microstructural variation caused by Sc and Zr additions to a 2xxx series Al-Cu alloy was studied in the context of corrosion and hardness. The addition of Sc and Zr led to microstructural refinement, a decrease in corrosion current density, and a reduction in the extent of pitting and intergranular corrosion; whilst hardness increased. Such an improvement in properties was attributed to the variation of alloy microstructure. It was also noted that an often unreported W-phase (AlxCu5-6ScZry≈0.3), containing Zr, was ‘cathodic’ relative to the Al-matrix in the Al-Cu-Sc-Zr alloy.
History
Journal
Corrosion ScienceVolume
158Article number
ARTN 108095Location
Amsterdam, The NetherlandsPublisher DOI
ISSN
0010-938XeISSN
1879-0496Language
EnglishPublication classification
C1 Refereed article in a scholarly journalCopyright notice
2019, Elsevier LtdPublisher
PERGAMON-ELSEVIER SCIENCE LTDPublication URL
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Keywords
Science & TechnologyTechnologyMaterials Science, MultidisciplinaryMetallurgy & Metallurgical EngineeringMaterials ScienceAluminiumAlloySTEMPolarisationPitting corrosionIntergranular corrosionSTIR WELDED-JOINTSINTERGRANULAR CORROSIONALUMINUM-ALLOYSMECHANICAL-PROPERTIESLOCALIZED CORROSIONPITTING CORROSIONELECTROCHEMICAL CHARACTERISTICSSOLIDIFICATION BEHAVIORINTERMETALLIC PHASESTEMPORAL EVOLUTION4016 Materials engineering
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