Effect of rare earth Y on microstructure and texture of oriented silicon steel during hot rolling and cold rolling processes
Author:
Zhu Liguang1, Li Xiangyang1, Zheng Yaxu1, Guo Zhihong1, Zhang Yuanxiang2, Sun Huilan1, Liu Pengjun1, Liu Yu1, Cao Ruifang3
Affiliation:
1. School of Material Science and Engineering, Hebei Key Laboratory of Material Near-Net Forming Technology, Hebei University of Science and Technology , Shijiazhuang , 050018 , P. R. China 2. School of Material Science and Engineering, State Key Laboratory of Rolling Technology and Automation, Northeastern University , Shenyang , 110003 , P. R. China 3. Rolling Operation Department, Beijing Shougang Co., Ltd , Tangshan , 064404 , P. R. China
Abstract
Abstract
The effect of rare earth Y on precipitates and textures of the grain-oriented silicon steels, the composition, morphology, size, quantity of inclusions and texture evolution of hot-rolled and cold-rolled oriented silicon steel containing rare earth Y were studied using transmission electron microscopy, field emission scanning electron microscope, and electron backscatter diffraction. The results show that there are mainly spherical or ellipsoidal Y2O2S precipitates in the Y bearing silicon steel. Rare earth treatment effectively improves the precipitates’ morphology and restrains the precipitation of the long-strip MnS in the hot-rolled plate. Meanwhile, the microstructure is more uniform, and the recrystallized grains on the surface and the fiber structure in the central layer are larger after hot rolling compared with Y-free steel. Furthermore, with the addition of rare earth Y, the unfavorable brass texture and rotational cube texture in the hot-rolled plate are reduced. Meanwhile, the number of shear bands is increased and the strength of the favorable {111} 〈112〉 texture is improved in the cold-rolled plate, which helps develop the Goss texture during the annealing process.
Publisher
Walter de Gruyter GmbH
Subject
Physical and Theoretical Chemistry,Mechanics of Materials,Condensed Matter Physics,General Materials Science
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