Effect of cold-rolling deformation and rare earth yttrium on microstructure and texture of oriented silicon steel
In order to study the effect of cold-rolling deformation and rare earth Y on the microstructure and texture of 3.0% Si-oriented silicon steel, the microstructure and texture of cold-rolled oriented silicon steel with 60, 72, and 86% deformation are analyzed using electron backscatter diffraction and...
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| Published in: | High temperature materials and processes Vol. 42; no. 1; pp. pp. 78 - 81 |
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| Main Authors: | , , , , , , , , |
| Format: | Journal Article |
| Language: | English |
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Berlin
De Gruyter
15-02-2023
Walter de Gruyter GmbH |
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| Abstract | In order to study the effect of cold-rolling deformation and rare earth Y on the microstructure and texture of 3.0% Si-oriented silicon steel, the microstructure and texture of cold-rolled oriented silicon steel with 60, 72, and 86% deformation are analyzed using electron backscatter diffraction and image analysis software. The experimental results show that the deformation band becomes narrower and the distribution of shear bands becomes denser with increasing cold-rolling deformation. Compared to the Y-free steel, cold-rolled sheet containing rare earth Y has greater shear bands. The pinning effect of rare earth Y hinders the dislocation movement, which leads to the increase of kernel average misorientation value and shear bands. With the increase of cold-rolling deformation, the texture concentrates on α and λ. This is mainly due to the change from {100} 〈001〉 to {001} 〈110〉, intensifying λ texture, and the change from {111} 〈112〉 to {111} 〈110〉, thus strengthening the α texture. The texture strength of cold-rolled sheets can be decreased by rare earth Y. But the γ texture strength in cold-rolled sheets containing Y is significantly higher than in those without Y. The γ texture strength can reach up to 7.3, and the strong points are mainly {111} 〈112〉. This is because the number of inclusions in steel increases with the addition of rare earth Y. In the process of grain nucleation, the {111} oriented grains nucleate heterogeneously on the inclusions. It forms a large number of {111} oriented grains and improves the γ texture strength. |
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| AbstractList | In order to study the effect of cold-rolling deformation and rare earth Y on the microstructure and texture of 3.0% Si-oriented silicon steel, the microstructure and texture of cold-rolled oriented silicon steel with 60, 72, and 86% deformation are analyzed using electron backscatter diffraction and image analysis software. The experimental results show that the deformation band becomes narrower and the distribution of shear bands becomes denser with increasing cold-rolling deformation. Compared to the Y-free steel, cold-rolled sheet containing rare earth Y has greater shear bands. The pinning effect of rare earth Y hinders the dislocation movement, which leads to the increase of kernel average misorientation value and shear bands. With the increase of cold-rolling deformation, the texture concentrates on α and λ. This is mainly due to the change from {100} 〈001〉 to {001} 〈110〉, intensifying λ texture, and the change from {111} 〈112〉 to {111} 〈110〉, thus strengthening the α texture. The texture strength of cold-rolled sheets can be decreased by rare earth Y. But the γ texture strength in cold-rolled sheets containing Y is significantly higher than in those without Y. The γ texture strength can reach up to 7.3, and the strong points are mainly {111} 〈112〉. This is because the number of inclusions in steel increases with the addition of rare earth Y. In the process of grain nucleation, the {111} oriented grains nucleate heterogeneously on the inclusions. It forms a large number of {111} oriented grains and improves the γ texture strength. |
| Author | Cao, Ruifang Liu, Yu Sun, Huilan Liu, Pengjun Zheng, Yaxu Zhang, Yuanxiang Guo, Zhihong Zhu, Liguang Li, Xiangyang |
| Author_xml | – sequence: 1 givenname: Zhihong surname: Guo fullname: Guo, Zhihong organization: School of Material Science and Engineering, Hebei Key Laboratory of Material Near-Net Forming Technology, Hebei University of Science and Technology, Shijiazhuang, 050018, PR China – sequence: 2 givenname: Pengjun surname: Liu fullname: Liu, Pengjun organization: School of Material Science and Engineering, Hebei Key Laboratory of Material Near-Net Forming Technology, Hebei University of Science and Technology, Shijiazhuang, 050018, PR China – sequence: 3 givenname: Yaxu surname: Zheng fullname: Zheng, Yaxu email: zhengyaxu1984@163.com organization: School of Material Science and Engineering, Hebei Key Laboratory of Material Near-Net Forming Technology, Hebei University of Science and Technology, Shijiazhuang, 050018, PR China – sequence: 4 givenname: Liguang surname: Zhu fullname: Zhu, Liguang email: zhulg@ncst.edu.cn organization: School of Material Science and Engineering, Hebei Key Laboratory of Material Near-Net Forming Technology, Hebei University of Science and Technology, Shijiazhuang, 050018, PR China – sequence: 5 givenname: Yuanxiang surname: Zhang fullname: Zhang, Yuanxiang organization: School of Material Science and Engineering, State Key Laboratory of Rolling Technology and Automation, Northeastern University, Shenyang, 110003, PR China – sequence: 6 givenname: Huilan surname: Sun fullname: Sun, Huilan organization: School of Material Science and Engineering, Hebei Key Laboratory of Material Near-Net Forming Technology, Hebei University of Science and Technology, Shijiazhuang, 050018, PR China – sequence: 7 givenname: Xiangyang surname: Li fullname: Li, Xiangyang organization: School of Material Science and Engineering, Hebei Key Laboratory of Material Near-Net Forming Technology, Hebei University of Science and Technology, Shijiazhuang, 050018, PR China – sequence: 8 givenname: Yu surname: Liu fullname: Liu, Yu organization: School of Material Science and Engineering, Hebei Key Laboratory of Material Near-Net Forming Technology, Hebei University of Science and Technology, Shijiazhuang, 050018, PR China – sequence: 9 givenname: Ruifang surname: Cao fullname: Cao, Ruifang organization: Rolling Operation Department, Beijing Shougang Co., LTD., Tangshan, 064404, PR China |
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| SubjectTerms | Cold Cold rolling Deformation analysis Deformation effects Earth Edge dislocations Electron backscatter diffraction Grains Image analysis Inclusions Microstructure Misalignment Nucleation oriented silicon steel rare earth Y Shear bands Sheets Silicon steels Texture Yttrium |
| Title | Effect of cold-rolling deformation and rare earth yttrium on microstructure and texture of oriented silicon steel |
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