Effect of pre-ageing treatment on second nucleating of GPII zones and precipitation kinetics in an ultrafine grained 7075 aluminum alloy

Effect of pre-ageing treatment on second nucleating of GPII zones and precipitation kinetics in an ultrafine grained 7075 aluminum alloy

To clarify the influence of a pre-ageing treatment on precipitation behaviors in the AA7075 aluminum alloys with ultrafine grain (UFG) structure, the alloys were pre-aged prior to a room temperature rolling process (PA + RTR). The precipitation kinetics in PA + RTR alloys during isothermal heat trea...

Full description

Saved in:
Bibliographic Details
Published in:Materials & design Vol. 187; p. 108402
Main Authors: Luo, Jun, Luo, Hongyun, Li, Sijie, Wang, Runze, Ma, Yue
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-02-2020
Elsevier
Subjects:
Aluminum alloys
Microstructure analysis
Pre-ageing treatment
Precipitation kinetics
Small angle X-ray scattering
Ultrafine grain
Aluminum alloys
Precipitation kinetics
Microstructure analysis
Ultrafine grain
Pre-ageing treatment
Small angle X-ray scattering
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:To clarify the influence of a pre-ageing treatment on precipitation behaviors in the AA7075 aluminum alloys with ultrafine grain (UFG) structure, the alloys were pre-aged prior to a room temperature rolling process (PA + RTR). The precipitation kinetics in PA + RTR alloys during isothermal heat treatment at 100 °C were systematically investigated by transmission electron microscopy (TEM), small angle X-ray scattering (SAXS), and Vickers hardness measurements compared to its counterpart without pre-ageing treatment (i.e. RTR). Results reveal the pre-ageing treatment can lead to a higher dislocation density (22.8 × 1014 m−2) and a larger concentration of Mg (~12.85 at.%) and Zn (~8.33 at.%) atoms in the vicinity of dislocation, which causes a considerable increase in the size and volume fraction of the precipitates in PA + RTR alloy. Specially, our study shows, for the first time, that many GPII zones come from second nucleating in PA + RTR alloy at 108 h, which may ascribe to the pre-ageing treatment. More importantly, the pre-ageing treatment not only makes both two hardness peaks of PA + RTR alloy appeared ahead of but also higher than those of RTR alloy, by virtue of the enhanced precipitation kinetics in PA + RTR alloy. [Display omitted] •Due to pre-ageing treatment the higher dislocation density and atoms concentration can accelerate precipitation kinetics.•A large number of GPII zones could be precipitated second time because of the higher dislocation.•The GPII zones are relative stable with its feature size at around 5 nm in ultrafine-grained alloys.•Under an enhanced precipitation kinetics, the hardness peaks appeared earlier by ~80% after pre-ageing treatment.
ISSN:0264-1275
1873-4197
DOI:10.1016/j.matdes.2019.108402