Abstract: The effect of Retrogression and re-ageing treatments on the microstructure and properties of a new type low frequency electromagnetic casting ultra-high-strength aluminum alloy were investigated using hardness and electric conductivity tests, DSC analysis and TEM observation. It is found that after ageing at 120℃ for 24h, the studied alloy can gain high hardness and strength. After pre-ageing at 120℃ for 24h, retrogression at 180℃ for 60min, and then re-ageing at 120℃ for 24h, the tensile strength, yield strength, elongation and electric conductivity(IACS) of the studied alloy are 721MPa， 700MPa， 8.1% and 34.5% respectively. The TEM observation shows that the property changes of the alloy during RRA are closely related to the microstructural evolution. In the early stage of retrogression, the re-dissolution of GP zone and η′ leads to the decrease of hardness, while precipitation of η′ and η makes hardness increase again to a peak value. Then, the transition of η′→η and coarsening of η lead to the decrease of hardness. Precipitation of η′ after reageing increases the hardness， strength and electric conductivity of the studied alloy.

Key words: RRA; electromagnetic casting; ultra high strength; aluminum alloy; microstructure; property