| Abstract |
Using synchrotron X-ray diffraction, tomography and machine-learning enabled phase segmentation strategy, we have studied under operando conditions the nucleation, co-growth and dynamic interplays among the dendritic and multiple intermetallic phases of a typical recycled Al alloy (Al5Cu1.5Fe1Si, wt.%) in solidification with and without ultrasound. The research has revealed and elucidated the underlying mechanisms that drive the formation of the very complex and convoluted Fe-rich phases with rhombic dodecahedron and 3D skeleton networks (the so-called Chinese-script type morphology). Through statistical microstructural analyses and numerical modelling of the ultrasound melt processing, the research has demonstrated that a short period of ultrasound processing of just 7s in the liquid state is able to reduce the average size of the α-Al dendrites and the Fe-containing intermetallic phases by ∼5 times compared to the cases without ultrasound. This work has provided more new insights on quantitatively understanding of the formation of convoluted morphology of intermetallic phases in 4D domain and the beneficial effects of applying ultrasound to recycled Al alloys, which are directly relevant to industrial practice. |
| Authors |
Kang Xiang  , Ling Qin  , Yuliang Zhao , Shi Huang , Wenjia Du , E. Boller , Alexander Rack , Mengnie Li , Jiawei Mi
|
| Journal Info |
Elsevier BV | Acta Materialia , vol: 279
, pages: 120267 - 120267
|
| Publication Date |
8/5/2024 |
| ISSN |
1359-6454 |
Type |
article |
| Open Access |
hybrid
|
| DOI |
https://doi.org/10.1016/j.actamat.2024.120267 |
| Keywords |
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