Abstract
Magnesium (Mg) alloy AZ31 was produced by continuous variable cross-section direct extrusion (CVCDE) to study its deformation behavior. Metallographic microscopy (OM), transmission electron microscopy (TEM), and scanning electron microscopy (SEM) were used to observe the variations in microstructure and fracture morphology of Mg alloy AZ31 as a function of processing methods. The results reveal that grains of Mg alloy AZ31 were refined and their microstructure was homogenized by CVCDE. The recrystallization in Mg alloy AZ31 produced by CVCDE with 2 interim dies was more complete than that produced by conventional extrusion (CE) and CVCDE with 1 interim die, and the grains were finer and more uniform. Plasticity of the AZ31 alloy was improved. Fracture mode was evolved from a combination of ductility and brittleness to a sole ductile form. In summary, a CVCDE mold structure with 2 interim dies can improve microstructure, plasticity, and toughness of Mg alloy AZ31.
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