Improving mechanical properties and yield asymmetry in high-speed extrudable Mg-1.1Al-0.24Ca (wt%) alloy by high Mn addition

The chemical composition of a Mg-1.1Al-0.33Ca-0.44Mn (wt%) alloy, AXM10304, has been optimized for high speed extrusion. The extrudability is substantially improved from 24m/min to 60m/min by slightly reducing the Ca content from 0.33wt% to 0.24wt%. Then, the effect of Mn content on the mechanical p...

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Bibliographic Details
Published in:Materials science & engineering. A, Structural materials : properties, microstructure and processing Structural materials : properties, microstructure and processing, 2018-01, Vol.712, p.12-19
Main Authors: Nakata, T., Xu, C., Ajima, R., Matsumoto, Y., Shimizu, K., Sasaki, T.T., Hono, K., Kamado, S.
Format: Article
Language:English
Subjects:
Aging
Aging (artificial)
Alloys
Asymmetry
Chemical compounds
Compressive properties
Extrudability
Extrusion
Extrusion rate
Grain size
Guinier Preston zone
High-speed extrusion
Magnesium base alloys
Manganese
Mechanical properties
Mg-Al-Ca-Mn alloy
Yield asymmetry
Yield strength
Yield stress
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Summary:The chemical composition of a Mg-1.1Al-0.33Ca-0.44Mn (wt%) alloy, AXM10304, has been optimized for high speed extrusion. The extrudability is substantially improved from 24m/min to 60m/min by slightly reducing the Ca content from 0.33wt% to 0.24wt%. Then, the effect of Mn content on the mechanical properties and microstructures of extruded Mg-1.1Al-0.24Ca based alloys were investigated. In a solution-treated condition, tensile yield stress is enhanced to 200MPa with increasing Mn content up to 0.68wt% and the compressive yield stress is also improved to 164MPa with increasing Mn content up to 1.0wt% due to grain size refinement. After an artificial aging, Guinier Preston zones were dispersed within the Mg matrix, and the tensile and compressive yield stresses are increased by 70MPa and 30MPa regardless of the Mn content. Consequently, the peak-aged 1.1Al-0.24Ca-1.0Mn alloy, AXM1021, exhibits high tensile and compressive yield stresses of 263MPa and 197MPa with a good yield asymmetry of 0.74 (a ratio of compressive yield stress to tensile one).
ISSN:0921-5093
1873-4936
DOI:10.1016/j.msea.2017.11.085