Promoting hybrid twins structure to reduce yield asymmetry of rolled AZ31 plates by combining side-rolling and torsion

In this work, an as-rolled AZ31 square bar with c-axis//ND (normal direction) texture was used. Side-rolling and reciprocating torsion were performed to treat the bar. Microstructure evolution and tensile-compressive properties were investigated in detail. Initial rolled AZ31 bar exhibits a large yield asymmetry along the rolling direction (RD). Reciprocating torsion can generate extension twins to introduce twin boundaries and twin-texture. The twin structure can reduce yield asymmetry. However, only limited regions in the rolled AZ31 bar can be twinned during torsion. Pre-side-rolling along the transverse direction (TD) can generate two texture components (c-axis//TD texture and c-axis//ND texture) by introducing profuse {10-12} twins. Such dual texture components help increase the regions which are favorable for twinning during torsion. Finally, combining side-rolling and reciprocating torsion generates hybrid {10-12} twins structure on the entire cross-section, resulting in a remarkably low yield asymmetry. The relevant mechanisms were discussed in detail. & COPY; 2021 Chongqing University. Publishing services provided by Elsevier B.V. on behalf of KeAi Communications Co. Ltd. This is an open access article under the CC BY-NC-ND license ( http://creativecommons.org/licenses/by-nc-nd/4.0/ ) Peer review under responsibility of Chongqing University

Automated summary

In this study, a rolled AZ31 bar with c-axis//ND texture was treated by side-rolling and reciprocating torsion. The microstructure and tensile-compressive properties were investigated. The initial rolled bar exhibits yield asymmetry along the rolling direction. Reciprocating torsion can introduce twin boundaries and twin-texture, reducing the yield asymmetry. Pre-side-rolling generates dual texture components and increases the regions favorable for twinning during torsion. Combining side-rolling and reciprocating torsion results in a hybrid twin structure and remarkably low yield asymmetry.