Modeling the temperature dependent effect of twinning on the behavior of magnesium alloy AZ31B sheet

The effect of the basal texture on the mechanical behaviour of AZ31B magnesium alloy sheet is studied numerically using a recently developed Elastic Visco-Plastic Self-consistent (EVPSC) model, in which both slip and twinning contribute to plastic deformation. We simulate uniaxial tension within the

Magnesium alloys usually exhibit low ductility at the room temperature due to its hexagonal close-packed structure, but it will be improved at elevated temperature. Therefore, warm press-forming of magnesium alloy sheets is quite attractive. In order to determine the optimum condition of press-formi

The deformation characteristics of a 0.6 mm-thick, fine-grained AZ31B Mg alloy sheet were investigated with the intention of reducing forming time during gas blow forming. The sheets were successfully deformed into hemispherical domes at 300, 370, and 420 • C under various pressurization profiles. T