Abstract
The microstructure and mechanical properties of Mg–5·8Zn–1·2Y–0·7Zr alloys before and after unequal channel angular pressing (UCAP) have been investigated in detail using optical microscopy, scanning electron microscopy (SEM), X-ray diffraction, differential scanning calorimetry and mechanical property testing. The SEM and optical microscopy showed that the grain size was refined more at lower UCAP temperatures. When squeezed below 300°C, the average grain size was refined from the initial 110 μm to below 1·5 μm; the tensile strength increased to 390 MPa, and the elongation to break was over 13%. The high mechanical properties could be attributed to the reduced grain size and the strengthening effects of broken secondary phase particles and fine precipitates formed as a result of the severe shear and plastic deformation during pressing at high temperature.
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