The microstructure and texture evolutions during extrusion and rolling processes of the 2195 Al−Li alloy were investigated.The EBSD technique was employed to reveal the microscopic evolution mechanisms of different te...The microstructure and texture evolutions during extrusion and rolling processes of the 2195 Al−Li alloy were investigated.The EBSD technique was employed to reveal the microscopic evolution mechanisms of different texture components.The findings reveal that the texture evolution is governed by two mechanisms:an overall orientation transformation induced by plastic strain and a localized transformation occurring at the shearing bands within grains.During the rolling process,the extrusion texture components of Ex{123}<111>and Cu{112}<111>evolve into S{123}<634>,and the Bs{011}<211>rotates into the orientations near R-Bs and S.With increasing deformation,the S,Bs,and R-Bs orientations further rotate around the TD axis and disperse into new orientations,forming recrystallized grains.The shearing bands with different initial orientations exhibit similar orientation evolution patterns,all of which evolve from the initial orientation to a series of recrystallization orientations.展开更多
基金supported by the National Natural Science Foundation of China(No.52205393)the Natural Science Foundation of Shandong Province,China(No.ZR2022QE263)+1 种基金the Science and Technology Commission of Shanghai Municipality,Shanghai Rising-Star Program,China(No.23YF1413900)the Science and Technology Innovation Plan of Shanghai Science and Technology Commission,China(Nos.21010500800,23010501100).
文摘The microstructure and texture evolutions during extrusion and rolling processes of the 2195 Al−Li alloy were investigated.The EBSD technique was employed to reveal the microscopic evolution mechanisms of different texture components.The findings reveal that the texture evolution is governed by two mechanisms:an overall orientation transformation induced by plastic strain and a localized transformation occurring at the shearing bands within grains.During the rolling process,the extrusion texture components of Ex{123}<111>and Cu{112}<111>evolve into S{123}<634>,and the Bs{011}<211>rotates into the orientations near R-Bs and S.With increasing deformation,the S,Bs,and R-Bs orientations further rotate around the TD axis and disperse into new orientations,forming recrystallized grains.The shearing bands with different initial orientations exhibit similar orientation evolution patterns,all of which evolve from the initial orientation to a series of recrystallization orientations.
