Precipitation behaviour in AlMgZnCuAg crossover alloy with coarse and ultrafine grains

Precipitation behaviour in AlMgZnCuAg crossover alloy with coarse and ultrafine grains

Crossover aluminium alloys have recently been introduced as a new class of coarse-grained age-hardenable alloys. Here, we study the evolution of precipitation of the T-phase — -phase — in a 5xxx/7xxx crossover alloy with coarse- and ultrafined microstructures. Both alloys were examined using differe...

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Veröffentlicht in:Materials research letters 2023-12, Vol.11 (12), p.1063-1072
Hauptverfasser: Willenshofer, P. D., Tunes, M. A., Kainz, C., Renk, O., Kremmer, T. M., Gneiger, S., Uggowitzer, P. J., Pogatscher, S.
Format: Artikel
Sprache:eng
Schlagworte:
Alloys
Aluminum base alloys
Diffusion rate
DSC
Equilibrium
Experiments
Grain boundaries
Grain growth
Grain size
Hardenability
High resistance
in situ transmission electron microscopy
Metallurgy
Precipitation of T-phase
Spectrum analysis
Transmission electron microscopy
ultrafine-grained aluminium crossover alloys
Ultrafines
XRD
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Zusammenfassung:Crossover aluminium alloys have recently been introduced as a new class of coarse-grained age-hardenable alloys. Here, we study the evolution of precipitation of the T-phase — -phase — in a 5xxx/7xxx crossover alloy with coarse- and ultrafined microstructures. Both alloys were examined using differential scanning calorimetry, X-ray diffraction and in situ transmission electron microscopy. The ultrafine-grained alloy revealed significant different and accelerated precipitation behaviour due to grain boundaries acting as fast diffusion paths. Additionally, the ultrafine-grained alloy revealed high resistance to grain growth upon heating, an effect primarily attributed to inter-granular precipitation synergistically with trans-granular precipitation of T-phase.
ISSN:2166-3831
2166-3831
DOI:10.1080/21663831.2023.2281589