Study on Rolling Defects of Al-Mg Alloys with High Mg Content in Normal Rolling and Cross-Rolling Processes

Abstract: This study investigated defect formation and strain distribution in high-Mg-content Al-Mg alloys during normal rolling and cross-rolling processes. The finite element analysis (FEA) revealed the presence of wave defects and strain localization-induced zipper cracks in normal cold rolling, which were confirmed by the experimental results. The concentration of shear strain played a significant role in crack formation and propagation. However, the influence of wave defects was minimal in the cross-rolling process… Show more

“…To address these issues, alloy design often involves adding reinforcing elements such as Al, Ca, Zn, and Si [3][4][5][6][7][8], with magnesium-aluminum alloy being the most common alloy in practice. While some research on magnesium alloys has addressed drawbacks like low strength and flammability through the addition of rare earth elements or process improvements, the feasibility of large-scale application and complete replacement of existing methods remains uncertain [9,10]. Therefore, research on magnesium-aluminum alloys continues to hold significant importance.…”

Discovery of magnesium-aluminum alloys by generative model and automatic differentiation approach

“…To address these issues, alloy design often involves adding reinforcing elements such as Al, Ca, Zn, and Si [3][4][5][6][7][8], with magnesium-aluminum alloy being the most common alloy in practice. While some research on magnesium alloys has addressed drawbacks like low strength and flammability through the addition of rare earth elements or process improvements, the feasibility of large-scale application and complete replacement of existing methods remains uncertain [9,10]. Therefore, research on magnesium-aluminum alloys continues to hold significant importance.…”

Discovery of magnesium-aluminum alloys by generative model and automatic differentiation approach

Cross-rolling induced texture randomization and structural evolution for improved plastic isotropy in Al-Mg alloys with high Mg content