Article,
Effects of grain boundary chemistry and precipitate structure on intergranular corrosion in Al-Mg-Si alloys doped with Cu and Zn
Contributors
Bartawi E.H.
0000-0003-0031-7414
(Corresponding author)
[1]
Mishin O.V.
0000-0002-2669-3453
[1]
Affiliations
- [1] Technical University of Denmark [NORA names: DTU Technical University of Denmark; University; Denmark; Europe, EU; Nordic; OECD];
- [2] SINTEF [NORA names: Norway; Europe, Non-EU; Nordic; OECD];
- [3] Delft University of Technology [NORA names: Netherlands; Europe, EU; OECD];
- [4] Norwegian University of Science and Technology [NORA names: Norway; Europe, Non-EU; Nordic; OECD]
Abstract
Al-Mg-Si alloys are known as structural materials and are primary alloys in the automotive industry to achieve weight reduction. Shifting toward sustainability, lower energy consumption, and less CO emission necessitates recycling. However, the unavoidable accumulation of scrap-related impurities, e.g., Cu and Zn, during the recycling process can influence corrosion resistance of recycled alloys. The results show that Al-Mg-Si alloys containing 0.05 wt% Cu exhibit low intergranular corrosion resistance. The intergranular corrosion resistance of these alloys is notably improved by adding 0.06 wt% Zn. Low concentrations of Cu and Zn are found to strongly affect the crystal structure of hardening precipitates.
Keywords
AFM/SKPFM,
HR-STEM,
Intergranular corrosion,
Precipitate atomic structures,
Recycled Al-Mg-Si alloys
