Abstrakt
The processes taking place during natural ageing (NA) of the aluminium alloy Al-0.4Mg-0.4Si (wt.%) are characterised by positron annihilation lifetime spectroscopy carried out both in situ during ageing and ex situ after cooling down samples to low temperatures (-180 degrees C to -60 degrees C) between NA steps. We find a pronounced dependence of positron lifetime on temperature, which is the signature of the presence of vacancy-free solute clusters in addition to vacancy-related defects.
Such clusters are also found in as-quenched samples, indicating that clustering takes place already during quenching. The decomposition of positron lifetime spectra into various components allows us to apply the three-state trapping model and to determine the trapping rates into vacancy-related defects and solute clusters.
By modelling the time dependence of positron data we are able to describe the natural ageing process as a gradual decrease of vacancy density associated with a pronounced increase of the density of solute clusters. (C) 2015 Acta Materialia Inc. Published by Elsevier Ltd.
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