Ambient extrusion induced working hardening and their effect on mechanical properties in AZ31 hot-extrusion bar

Varying degrees of strain was imposed to AZ31 hot-extrusion bars by ambient extrusion. Mechanical properties were tested along different loading direction to reveal the effect of working hardening on deformation mecha-nisms and strain hardening behavior. The results showed that, with the increase of extrusion strain, yield strength increased gradually with a sacrifice in ductility. The working hardening from ambient extrusion, on the other hand, showed varying effects for different loading direction due to respective dominating deformation mechanism. Due to the complex crystal orientation, an evident elastic-plastic transition (EPT) stage was found in the 0 degrees and 45 degrees samples. Working hardening could enlarge the EPT stage since it had different effect on basal slip, {10 (1) over bar2} twinning and prismatic slip.

Automated summary

The effect of working hardening on deformation mechanisms and strain hardening behavior was revealed by imposing varying degrees of strain on AZ31 hot-extrusion bars through ambient extrusion. It was found that as the extrusion strain increased, the yield strength increased gradually while the ductility sacrificed. The working hardening had varying effects on different loading directions.