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Influences of superheat and cooling intensity on macrostructure and macrosegregation of duplex stainless steel studied by thermal simulation |
Hong-gang Zhong1,2, Xiang-ru Chen1, Yan-jie Liu2, Zhi-qiang Wei1, Hai-feng Yu3, Qi-jie Zhai1,2 |
1 Center for Advanced Solidification Technology, Shanghai University, Shanghai 200444, China;
2 Shanghai Institute of Materials Genome, Shanghai 200444, China; 3
Research Institute, Baoshan Iron & Steel Co., Ltd., Shanghai 200431, China |
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Abstract The influences of superheat and cooling intensity on macrostructure and macrosegregation of one new kind duplex stainless steel (DSS) were studied. Thermal simulation equipment was applied to prepare samples, which could reproduce the industrial processes of DSS manufactured by a vertical continuous slab caster. Macrostructure and macrosegregation were analyzed using the digital single lens reflex and laser-induced breakdown spectroscope (LIBSOPA-200), respectively. The percentage of both chill zone and center equiaxed zone increases with the superheat decreasing, while that of the columnar zone decreases. There is only equiaxed grain existing as the superheat is 10 and 20 °C. The lower the superheat is, the coarser the gain size is. High cooling intensity in mold could remarkably decrease the chill zone length and refine the grains in chill zone and center equiaxed zone. The influences of cooling intensity on macrosegregation are greater than those of superheat. The macrosegregation of Si, Mn and Cr is slightly dependent on superheat, while that of Cu, Mo and Ni changes greatly with superheat increasing.
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Cite this article: |
Hong-gang Zhong,Xiang-ru Chen,Yan-jie Liu, et al. Influences of superheat and cooling intensity on macrostructure and macrosegregation of duplex stainless steel studied by thermal simulation[J]. Journal of Iron and Steel Research International, 2021, 28(9): 1125-1132.
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