The effect of Si on precipitation in Al–Cu–Mg alloy with a high Cu/Mg ratio

Abstract

The precipitations in an Al–5.0Cu–0.3Mg (wt%) alloy and an Al–5.0Cu–0.3Mg–0.3Si (wt%) alloy have been systematically investigated by high-angle annular dark-field scanning transmission electron microscopy. The results are compared to clarify the effect of Si addition. The nucleation and growth process of θ′ (Al2Cu) phase in Si-containing alloy during isothermal ageing at 180°C is revealed in detail. The formation of Q″-type precipitates, on which the θ′ precursors nucleate heterogeneously, contributes to the considerable increase in the ageing kinetics and higher strength at the early ageing stage. The thickening of the θ′ precipitate is largely confined due to the rather small size of fine Q″-type precipitate. As a result, a large proportion of θ′ phase precipitates possess a specific thickness of 2cθ′ and change slightly during the entire observed duration of ageing. The θ′ growth mechanism distinct from the Al–Cu–Mg alloy finally leads to a refined θ′ morphology regarding the thickness and aspect ratio (diameter/thickness). As is counterintuitive, the θ′ precipitate thickness distribution is demonstrated to have little effect on the mechanical property steadiness at the late ageing stage of the Al–Cu–Mg–(Si) alloys.