Effects of pre-treatments on aging precipitates and corrosion resistance of a creep-aged Al–Zn–Mg–Cu alloy

• Aging precipitates and corrosion resistance are greatly affected by pre-treatments.
• Solution pre-treatment results in large continuously-distributed grain boundary aging precipitate.
• Intragranular aging precipitates are sensitive to retrogression pre-treatment time.
• Suitable retrogression time makes the excellent corrosion resistance of creep-aged alloy.

The effects of pre-treatments (solution and retrogression) on aging precipitates and corrosion resistance of a creep-aged Al–Zn–Mg–Cu alloy are investigated by means of transmission electron microscope (TEM), scanning electron microscope (SEM) and cyclic potentiodynamic polarization experiments. It is found that the aging precipitates and corrosion resistance are greatly affected by the pre-treatments. For the creep-aged alloy after solution pre-treatment, fine aging precipitates with high density are formed within grains. Meanwhile, large and continuously-distributed aging precipitates appear along grain boundaries. Also, this creep-aged alloy is strongly sensitive to the electrochemical corrosion, and the corrosion pits are easily induced in the 3.5 wt.% NaCl solution. For the creep-aged alloy after retrogression pre-treatment, when the retrogression pre-treatment time is increased, the density of intragranular aging precipitates first increases and then decreases, while the size of grain boundary precipitate and the width of precipitate free zone continuously increase. Compared with the creep-aged alloy after solution pre-treatment, the corrosion resistance of the creep-aged alloy after retrogression pre-treatment is greatly improved.

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