File(s) under permanent embargo
Atom probe tomography characterisation of solute clustering in AA6111
conference contribution
posted on 2010-01-01, 00:00 authored by S Li, Ross MarceauRoss Marceau, G Sha, W J Poole, S P RingerA series of ageing treatments have been performed on AA6111 alloy samples for various periods
ranging from 4 mins to 2 weeks ageing between room temperature and 180 ºC. The microstructures
of these alloy samples have been carefully characterised using atom probe tomography in order to
obtain quantitative information about the solute clusters and early-stage precipitates that are formed.
Intriguingly, an iso- yield strength regime has been measured for samples aged variously with
respect to temperature and duration, generating different precipitate microstructures. Ageing at a
higher temperature produced larger early-stage precipitates at lower number density. In contrast, the
yield strength of naturally aged samples increased with ageing time at room temperature and
initially produced a higher number density of smaller solute clusters followed by a development in
the microstructure to a lower number density of early-stage GP zone precipitates. The strengthening
effect of different precipitate microstructures formed under different ageing treatments has been
addressed.
ranging from 4 mins to 2 weeks ageing between room temperature and 180 ºC. The microstructures
of these alloy samples have been carefully characterised using atom probe tomography in order to
obtain quantitative information about the solute clusters and early-stage precipitates that are formed.
Intriguingly, an iso- yield strength regime has been measured for samples aged variously with
respect to temperature and duration, generating different precipitate microstructures. Ageing at a
higher temperature produced larger early-stage precipitates at lower number density. In contrast, the
yield strength of naturally aged samples increased with ageing time at room temperature and
initially produced a higher number density of smaller solute clusters followed by a development in
the microstructure to a lower number density of early-stage GP zone precipitates. The strengthening
effect of different precipitate microstructures formed under different ageing treatments has been
addressed.
