Investigation of normal recrystallization and abnormal recrystallization in pure tungsten sheet by EBSD

Abstract

Normal recrystallization and abnormal recrystallization induced by Ni in pure tungsten (W) sheet were studied by EBSD. It was demonstrated that (001)[11¯0] and (111)[11¯0] textures in the deformed W sheet remain after normal recrystallization, but with lower densities. In addition, (001)[01¯0] and (111)[1¯1¯2] textures arise after recrystallization, which can be explained on the subgrain coarsening recrystallization mechanism. During the abnormal recrystallization of W sheets, grain boundary phase change occurred first between Ni and W, which leads to the formation of liquid-like films on grain boundaries. The occurrence of grain boundary phase change depends mainly on the grain boundary misorientation angle. Grain boundaries with liquid-like film will migrate under the driving force of eliminating deformation storage energy, which gives rise to abnormal recrystallization in W sheets. After abnormal recrystallization, (001)[11¯0] and (111)[11¯0] textures disappeared, leaving only weak texture near (001)[01¯0].