Abstract
The influence of rolling temperature and pass reduction degree on microstructure and texture evolution was investigated using an AZXW3100 alloy, Mg-3Al-1Zn-0.5Ca-0.5Y, in wt.%. The
change in the rolling schedule had a significant influence on the resulting texture and microstructure
from the rolling and subsequent annealing. A relatively strong basal-type texture with a basal pole
split into the rolling direction was formed by rolling at 450 ◦C with a decreasing scheme of the pass
reduction degrees with a rolling step, while the tilted basal poles in the transverse direction were
developed by using an increasing scheme of the pass reduction degrees. Rolling at 500 ◦C results in a
further distinct texture type with a far more largely tilted basal pole into the rolling direction. The directional anisotropy of the mechanical properties in the annealed sheets was caused by the texture and microstructural features, which were in turn influenced by the rolling condition. The Erichsen
index of the sheets varied in accordance to the texture sharpness, i.e., the weaker the texture the
higher the formability. The sheet with a tetrarchy distribution of the basal poles into the transverse
and rolling directions shows an excellent formability with an average Erichsen index of 8.1.