摘要
Aging behaviors of extruded and rolled AZ80 and AZ31 Mg alloys were investigated under conditions similar to the paint-bake cycle currently used in automotive industry.Artificial aging at 170℃ from 0.5 to 12 h was conducted on solution-treated specimens to study the effects of aging on mechanical properties.SEM observations and EDS data show thatβ-phase of Al12Mg17 precipitates continuously or discontinuously fromα-Mg matrix and distributes along grain boundaries of the AZ80 alloy during artificial aging.Data of tensile tests and Vickers hardness tests show that an optimum mechanical property is achieved after baking at 170℃ for 6-8 h when Vickers hardness,tensile strength,and elongation are increased by 6.35%,15.30%,and 7.88%,respectively, while the AZ31 alloy does not exhibit significant hardening behavior over the aging period.
Aging behaviors of extruded and rolled AZ80 and AZ31 Mg alloys were investigated under conditions similar to the paint-bake cycle currently used in automotive industry.Artificial aging at 170℃ from 0.5 to 12 h was conducted on solution-treated specimens to study the effects of aging on mechanical properties.SEM observations and EDS data show thatβ-phase of Al12Mg17 precipitates continuously or discontinuously fromα-Mg matrix and distributes along grain boundaries of the AZ80 alloy during artificial aging.Data of tensile tests and Vickers hardness tests show that an optimum mechanical property is achieved after baking at 170℃ for 6-8 h when Vickers hardness,tensile strength,and elongation are increased by 6.35%,15.30%,and 7.88%,respectively, while the AZ31 alloy does not exhibit significant hardening behavior over the aging period.
基金
Project(50801034)supported by the National Natural Science Foundation of China
Project(20060425)supported by the Scientific and Technological Research Key Laboratory Foundation of Liaoning Education Department,China
