Abstract
During the deformation of magnesium alloys, increasing temperature is known to favor secondary slip modes and suppress twinning. In this study, an Mg-3Al-1Zn O-temper plate was deformed by plane strain compression at 20–450 °C, and visco-plastic self-consistent modeling was used to evaluate the CRSS of different deformation modes at different temperatures. Results show that the CRSS for {101¯2} tension twinning increases, and {101¯1} compression twinning is not observed above 150 °C. At 250 °C and above, prismatic and pyramidal <c+a> slip have the same initial CRSS. The CRSS values estimated at different temperatures are used to simulate several types of deformation behavior.
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