Research on Cracks Evolution of High Silicon Electrical Steel Fe-10 % Si and Low Carbon Steel Q235 Composite Plate in Rolling Process

姬帅; 刘忠军; 梁凯; 高博阳; 赵明慧

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Research on Cracks Evolution of High Silicon Electrical Steel Fe-10 % Si and Low Carbon Steel Q235 Composite Plate in Rolling Process

更新时间：2026-01-21

- Research on Cracks Evolution of High Silicon Electrical Steel Fe-10 % Si and Low Carbon Steel Q235 Composite Plate in Rolling Process
- Special Steel Vol. 42, Issue 4, Pages: 1-6(2021)
- 作者机构：
  
  1. 西安石油大学材料科学与工程学院,西安,710065
  2. 南京工业大学材料化学工程国家重点实验室,南京,210009
  3. 东北大学材料电磁过程研究教育部重点实验室,沈阳,110819
  4. 桂林电子科技大学广西电子信息材料构效关系重点实验室,桂林,541004
- 作者简介：
- 基金信息：
- DOI：
  CLC：
- Received：24 December 2020，
  
  Online First：08 March 2022，
  
  Published：08 March 2021
- 稿件说明：
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姬帅, 刘忠军, 梁凯, et al. Research on Cracks Evolution of High Silicon Electrical Steel Fe-10 % Si and Low Carbon Steel Q235 Composite Plate in Rolling Process[J]. Special Steel, 2021, 42(4): 1-6.
DOI：

姬帅, 刘忠军, 梁凯, et al. Research on Cracks Evolution of High Silicon Electrical Steel Fe-10 % Si and Low Carbon Steel Q235 Composite Plate in Rolling Process[J]. Special Steel, 2021, 42(4): 1-6. DOI：

摘要

对包覆浇铸制备的低碳钢-高硅电工钢-低碳钢三层复合铸坯进行热轧及温轧变形加工

对轧制过程中产生的裂纹及其演变进行研究

同时研究扩散退火工艺对裂纹变化的影响。结果表明

60 mm复合铸坯可以通过热轧及温轧变形减薄至0.5 mm;变形过程中高硅电工钢产生的深裂纹在本质上不受加工工艺的影响

其自身存在属性会保留在复合板内层中;变形过程中产生的普通裂纹受加工过程的影响很大

存在尺寸明显减小的现象;深裂纹及普通裂纹在加工过程中自身周围的合金基体中衍生的微裂纹会在扩散退火过程中得到消除。

Abstract

Low carbon steel-high silicon electrical steel-low carbon steel three layers composite plate prepared by cladding cast has been deformed by process of hot rolling and warm rolling. The formation and evolution of cracks during the plastic process are investigated

and the effect of diffusion annealing on variation of cracks in deforming process is studied. Results show that ingot of composite could be thinned by hot rolling and warm rolling from 60 mm to 0.5 mm. The deep cracks in high silicon electrical steel generated during plastic deformation process are not affected by the processing technique essentially and their own existence attribute will always be retained in inner layer of the composite. The ordinary cracks produced in the deformation process are greatly affected by the deformed process

and the size decreases obviously. The microcracks generated in the alloy matrix around the deep crack and ordinary crack during the plastic process can be eliminated in the diffusion annealing process.

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