2003 年 44 巻 9 号 p. 1694-1697
Superplastic properties of an Al–Li–Mg–Cu–Sc alloy subjected to hot rolling at 573 K with a reduction of 90% were examined in the temperature range of 673–798 K and an initial strain rate of 1.4×10−2 s−1. It was found that partially recrystallized microstructure evolved under the hot rolling resulting in slight anisotropy of superplastic behavior. The maximum elongation-to-failure of 415% appeared in the rolling direction at 723 K while in the transverse direction the maximum ductility of 385% was achieved at a higher temperature of 773 K. Microstructure evolution and cavitation during superplastic deformation were examined.