Experiments were conducted on an AZ61 magnesium alloy to evaluate the microstructural characteristics and the mechanical properties after processing by High-Pressure Torsion (HPT). The results show that processing by HPT produces excellent grain refinement with average grain sizes of $0:22 and $0:11 mm after processing at 423 K and room temperature, respectively. Tensile testing after HPT revealed the potential for achieving superplastic elongations with a maximum recorded elongation of 620% when testing at a temperature of 473 K. Using microhardness measurements, it is demonstrated that the the microstructure gradually evolves with increasing torsional straining in HPT so that ultimately there is a reasonably homogeneous structure across the disk.
This study introduces a process of high-pressure torsion (HPT) using ring samples and
compares with the results of conventional disk HPT. Both types of HPT were conducted at room
temperature on pure Al and pure Cu. The microhardness was measured along the diameters of the
disks and rings. Microstructures were examined using transmission electron microscopy. When
hardness values were plotted against equivalent strain, all data points fell on a single line for each
material. There was a hardness maximum for pure Al but no such a maximum was present in pure Cu.
In pure Al, many dislocations were visible within grains up to the equivalent strain corresponding to
the hardness maximum but beyond this strain, grains with low dislocation density appear. All
materials exhibited steady state where the hardness remains constant with respect to imposed
equivalent strain. This study concludes that use of ring samples is effective as an alternative to the
disk samples.
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