Abstract
Slip rotation during rolling due to slip on systems of the type {001}⟨110⟩ has been discussed on the standard (001) stereographic projection by the analysis based on the biaxial stress system. The crystal of (112) [\bar1\bar11] orientation in the intermediate rolling texture tends to rotate toward (011) [\bar2\bar11] by the operation of cross slip on cube planes. The direction of this orientation change is similar to that for the rotation by normal slip on two {111}⟨110⟩ systems with the highest resolved shear stress. Therefore, the (011) [\bar2\bar11] type rolling texture will be developed under the condition that a large amount of cube plane slip occurs at a high degree of deformation.
The formation of {011}⟨211⟩ type rolling texture in Al-3.5 wt% Al2O3 alloy (SAP) can be explained by the proposed theory.
