期刊
出版社
ELSEVIER SCIENCE SA
DOI: 10.1016/j.msea.2020.140509
关键词
Al-Cu-Sc-Fe-Si alloy; Multi-microalloying effects; Solute repositioning; Nanoprecipitates; Microstructural stabilization; Interfacial segregation
类别
资金
- National Natural Science Foundation of China [51621063, 51625103, 51722104, 51790482, 51871033]
- 111 Project of China [BP2018008]
- International Joint Laboratory for Micro/Nano Manufacturing and Measurement Technologies
- Venture & Innovation Support Program for Chongqing Overseas Returnees [cx2018002]
This study conducted triple microalloying in an Al-Cu alloy, utilizing the interactions among Sc-Fe-Si elements to adjust the microstructural design of dual precipitates, enabling satisfactory dispersion and outstanding thermal stability of the dual precipitates in the current system, thus leading to good creep resistance at a high homologous temperature.
For multicomponent Al-based alloys, one of the most valuable approaches of microstructural design is to find a path to maximize the multiple microalloying effects while overcoming their negative counterparts. In this paper, triple Sc-Fe-Si microalloying was performed in an Al-Cu alloy to assemble the co-existence of theta'-Al2Cu and Al3Sc precipitates. Besides, the mutual interactions among triple microalloying elements were utilized to maximize the positive effects on tailoring the dual precipitates, as illustrated in two goals of microstructural design: (i). As to theta'-Al2Cu plates, the multiple Sc-Fe-Si segregation at theta'-Al2Cu/matrix interface was preferentially created in the alloy before creep (as-aged condition). During subsequent high-temperature creep, such interfacial warden will be rapidly reinforced by solute repositioning, as a process of accumulating solutes diffusing from both inner theta'-Al2Cu precipitate and outer matrix to limit the interfacial migration. (ii). For Al3Sc precipitates, the beneficial Si microalloying effect on encouraging the nucleation of Sc-rich entities (precursor of Al3Sc) was successfully acquired during aging, while the detrimental Si effect on accelerating Al3Sc coarsening is generally prohibited by tuning Fe-Si synergy within Al3Sc interior. The establishments of (i) and (ii) enable the satisfactory dispersion as well as the outstanding thermal stability of dual precipitates in the current Al-Cu-Sc-Fe-Si system, leading to a good creep resistance at a high homologous temperature of 0.61T(m) - 300 degrees C (where T-m is the melting temperature of the alpha-Al matrix).
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