期刊
出版社
ELSEVIER SCIENCE SA
DOI: 10.1016/j.msea.2022.143738
关键词
Mechanical properties; Microalloying; Atom probe tomography; Aluminium alloys; Strengthening mechanisms
类别
资金
- National Natural Science Foundation of China [51961026]
- Institute of Microelectronics of Chinese Academy of Sciences
A novel high-strength, ductile, and low-cost Al-11Si-3Cu alloy microalloyed with minor Sr + Sc was developed in this study, which showed improved mechanical properties compared to other Al-Si-(Cu) alloys. Atom probe tomography revealed the microstructure of the alloy and the strengthening mechanisms were discussed.
Alloying technology usually improves the mechanical properties of alloys; however, the high cost of alloying elements limits their wider applicability to conventional cast aluminium alloys. In this work, a novel high -strength, ductile, and low-cost Al-11Si-3Cu alloy microalloyed with minor Sr + Sc was developed and shown to improve the ultimate tensile strength and elongation relative to the majority of developed Al-Si-(Cu) alloys to date. Atom probe tomography (APT) reconstruction showed that Sc atoms existed separately instead of being enriched with Al and Sr atoms in eutectic Si, which indicated that the growth of eutectic Si in different crys-tallographic directions was inhibited. Many interactive stacking fault planes were formed in the novel alloy, which, as a series of barriers, effectively prevented dislocations from passing through, thereby providing a sig-nificant boost to the alloy strength. Moreover, a large number of Al3Sc and AlSi2Sc2 nano-precipitates exerted positive effects on the alloy strength by effectively slowing the dislocation movement. In addition, the strengthening mechanisms of the novel high-strength ductility Al-11Si-3Cu alloy are discussed.
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