Nanocluster Formation and Two-Step Aging Behavior of Rapid Hardening Al-Mg-Cu(-Ag) Alloys

Mami Mihara; Equo Kobayashi; Tatsuo Sato

doi:10.4028/www.scientific.net/MSF.794-796.996

Paper Titles

Aging Precipitation of Al-Mg-Si Alloys with Additions of Ag and Cu
p.981

TEM Observation of Precipitate Structures in Al-Zn-Mg Alloys with Additions of Cu/Ag
p.985

TEM Observation of Precipitates in Excess Mg-Type Al-Mg-Si Alloys Aged at 473K after Deformation
p.988

TEM Observation for Precipitates Structure of Al-1.0Mass%Mg₂Ge Alloys Aged at 473K
p.992

Nanocluster Formation and Two-Step Aging Behavior of Rapid Hardening Al-Mg-Cu(-Ag) Alloys
p.996

Behavior of Scandium in Aluminum Alloys of Different Alloying Systems
p.1002

The Role of Vacancies in the Aging of Al-Mg-Si Alloys
p.1008

Effect of Low Cu Addition and Thermo-Mechanical History on Precipitation in Al-Mg-Si Alloys
p.1014

The Influence of High Plastic Strain on Precipitation from Solid Solution in Third Generation Al-Li Alloys
p.1020

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Nanocluster Formation and Two-Step Aging Behavior of Rapid Hardening Al-Mg-Cu(-Ag) Alloys

Abstract:

The characteristic age-hardening response of Al-3.0Mg-1.0Cu (mass%) alloys with and without Ag addition has been investigated by the hardness measurement, differential scanning calorimetry (DSC) and electrical resistivity measurement. The alloy compositions locating in the (α+S+T) phase field of the Al-Mg-Cu phase diagram are known to be effective to harden in two stages separated by a distinct and often prolonged hardness plateau. The first stage of hardening occurs very rapidly (e.g. within 60 s at 443 K) and contributes to increase hardness as much as 50 % of the total age-hardening. In the Ag-added alloy, the hardness change during the first stage of hardening is larger and the plateau stage is shortened as a result of the fast arrival at the second stage of hardness. Small amount of Ag changes the age hardening response of the Base alloy dramatically. In the low temperature aging, the incubation stage at which no clear hardness and electrical resistivity increase appears for a long period before the first stage of hardening. After the pre-aging at this incubation period, a characteristic two-step aging response is observed. The peak hardness dramatically changes in the Al-3.0Mg-1.0Cu alloy, while no clear change in the Ag-added alloy.