Grain boundary wetting phenomena in the Al-Cu system

B.B. Straumal

, O.A. Kogtenkova, A.N. Nekrasov, J. Dutta Majumdar, G. Faraji, D. Bradai show affiliations and emails

Received 02 September 2024; Accepted 15 October 2024;

Citation: B.B. Straumal, O.A. Kogtenkova, A.N. Nekrasov, J. Dutta Majumdar, G. Faraji, D. Bradai. Grain boundary wetting phenomena in the Al-Cu system. Lett. Mater., 2024, 14(4) 319-324

BibTex https://doi.org/10.48612/letters/2024-4-319-324

Abstract

Al−Cu phase diagram with the tie-line of grain boundary wetting phase transition at Twmax

The complete and incomplete wetting of (Al) / (Al) grain boundaries by the melt L is observed in the (Al)+L two-phase region of the Al-Cu phase diagram. Already slightly above the eutectic transformation temperature, approximately 20 % of the (Al) / (Al) GBs in the polycrystal are completely wetted by the melt. Their fraction increases with increasing temperature and reaches 100 % at a temperature of 600°C. Above this temperature, all (Al) / (Al) GBs remain completely wetted by the melt L. In the (Al)+Al2Cu two-phase region of the Al-Cu phase diagram the particles of the second solid phase Al2Cu (θ-phase) are observed in the (Al) / (Al) GBs and in the bulk. The Al2Cu precipitates form a nonzero (and rather large) contact angle with (Al) / (Al) GBs. Thus, the complete wetting of the (Al) / (Al) GBs by the second solid phase Al2Cu is not observed in the Al-Cu system. From this point of view, the Al-Cu alloys differ from the previously studied Al-Mg and Al-Zn alloys where the (Al) / (Al) GBs can be completely wetted by the second solid phase (Al3Mg2 and (Zn), respectively).

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Funding

1. Russian ministry of science and higher education - contract no. 075-15-2024-652 grant no. 13.2251.21.0252