Role of unusual double-peak texture in significantly enhancing cold rolling formability of AZ31 magnesium alloy sheet
Xiuzhu Han, Li Hu, Dongyong Jia, J. C. Chen, Tao Zhou, Shuyong Jiang, Z. Ryan Tian
Abstract
Multi-pass cold rolling experiments were performed on AZ31 magnesium alloy sheet with unusual double-peak texture, where basal poles tilt about ±40° away from normal direction to rolling direction. This adopted sheet was fabricated by a novel technology of equal channel angular rolling and continuous bending process with subsequent annealing. Experimental results confirm that such an unusual double-peak texture contributes to a huge improvement of accumulated reduction up to 39.2%, which is over twice as much as that (18.3%) in sheet with strong basal texture. Optical microscopy and electron backscatter diffraction measurements demonstrate that the evolution of microstructure and texture in sheet with unusual double-peak texture is quite different from that in sheet with strong basal texture. Schmid factor (SF) analysis confirms that sheet with unusual double-peak texture possesses obviously large SF values for basal 〈a〉 slip {1012} and extension twin (ET) and remarkably small SF values for prismatic 〈a〉 slip and pyramidal 〈c+a〉 slip during cold rolling process. Therefore, basal 〈a〉 {1012} slip and {1012} ET will be activated more frequently in sheet with unusual double-peak texture to sustain plastic strain, leading to significant enhancement in cold rolling formability.