Evolution of tension and compression asymmetry of extruded Mg-Al-Sn-Zn alloy with respect to forming temperatures

Substantial strength of as-extruded and as-forged ATZ842 alloys is attributed to precipitation strengthening due to the presence of fine Mg2Sn and Mg17Al12 particles in the alloys. Because Mg alloys inevitably undergo dynamic recrystallization during the warm forging that is required for their net-s...

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Bibliographic Details
Published in:Materials & design 2016-11, Vol.110, p.510-518
Main Authors: Lee, Sang-Ik, Kim, Jung Seok, Park, Sung-Jun, Park, Sung Hyuk, Yoon, Jonghun
Format: Article
Language:English
Subjects:
Asymmetry
ATZ842
AZ80
Compacting
Compressive properties
Evolution
Magnesium alloy
Magnesium base alloys
Mg-Al-Sn-Zn alloy
Precipitation hardening
Reduction
Tension and compression asymmetry
Ultimate tensile strength
Yield ratio
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Summary:Substantial strength of as-extruded and as-forged ATZ842 alloys is attributed to precipitation strengthening due to the presence of fine Mg2Sn and Mg17Al12 particles in the alloys. Because Mg alloys inevitably undergo dynamic recrystallization during the warm forging that is required for their net-shape processing, it is important to examine microstructural evolution in as-forged samples. The appropriate forging temperature was found to range from 250 to 300°C; average grain size started to increase at temperatures over 350°C due to abnormal grain growth and a reduction in the fraction of second-phase particles. The ATZ842 alloy showed mechanical properties superior to those of the AZ80 alloy, including yield and ultimate strengths in both tensile and compressive deformations. Remarkably, the tension and compression asymmetry in plastic flow of ATZ842 forged at 250°C was characterized by a yield ratio of about 1.02, compared to the yield ratio of 0.88 for the AZ80 alloy. [Display omitted] •Appropriate forging temperatures of ATZ842 ranged from 250 to 300°C.•Solid-solution strengthening in the as-forged ATZ842 is substantially effective.•ATZ842 showed superior mechanical properties and the yield ratio (YR).
ISSN:0264-1275
1873-4197
DOI:10.1016/j.matdes.2016.08.026