Structural and compositional study of precipitates in under-aged Cu-added Al-Mg-Si alloy

Atomic scale characterization of fine precipitates in an under-aged Cu added Al-Mg-Si alloy was carried out by combination of atomically-resolved annular dark-field scanning transmission electron microscopy and energy dispersive X-ray spectroscopy. Two types of precipitates were observed in the alloy. In the case of ordered beta '' precipitates, beta '' was proposed as Mg5-xAl2+xSi4 (x approximate to 1) with solute Cu atoms replacing Al site of beta '' precipitate. In the case of disordered precipitates, the precipitates were found to consist of beta '' sub-unit cells, three-fold symmetric structure without Cu atoms, Cu containing structures termed as Cu sub-unit cluster, and Q' sub-unit cells. Among these structures, the morphologies of three-fold symmetric structure without Cu atoms, Cu sub-unit cluster, and Q' sub-unit cell were almost the same, so that these structures should be the clusters of Q' phase. Since the areal density, length and diameter of precipitates were almost equal between Cu free Al-Mg-Si alloy and Cu added Al-Mg-Si alloy, the increase of hardness by Cu addition should be due to the precipitation of Cu related precipitates, such as Cu sub-unit clusters and Q' sub-unit cells.