Roughness and micro pit defects on surface of SUS 430 stainless steel strip in cold rolling process

IF 1.9 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY
Changsheng Li, T. Zhu, Bo Fu, You-yuan Li
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引用次数: 4

Abstract

. Experiment on roughness and micro pit defects of SUS 430 ferrite stainless steel was investigated in laboratory. The relation between roughness and glossiness with reduction in height, roll surface roughness, emulsion parameters was analyzed. The surface morphology of micro pit defects was observed by SEM, and the effects of micro pit defects on rolling reduction, roll surface roughness, emulsion parameters, lubrication oil in deformation zone and work roll diameter were discussed. With the increasing of reduction ratio strip surface roughness Ra(s), Rp(s) and Rv(s) were decreasing along rolling and width direction, the drop value in rolling direction was faster than that in width direction. The roughness and glossiness were obtained under emulsion concentration 3% and 6%, temperature 55°C and 63°C, roll surface roughness Ra( r )=0.5 μ m, Ra( r )=0.7 μ m and Ra( r )=1.0 μ m. The glossiness was declined rapidly when the micro defects ratio was above 23%. With the pass number increasing, the micro pit defects were reduced, uneven peak was decreased and gently along rolling direction. The micro pit defects were increased with the roll surface roughness increase. The defects ratio was declined with larger gradient at pass number 1 to 3, but gentle slope at pass number 4 to 5. When work roll diameter was small, bite angle was increasing, lubrication oil in micro pit of deformation zone was decreased, micro defects were decreased, and glossiness value on the surface of strip was increased. Roughness and micro pit defects on surface of SUS 430 stainless steel strip….
sus430不锈钢带钢冷轧过程中表面粗糙度及微坑缺陷
。对sus430铁素体不锈钢的粗糙度和微坑缺陷进行了室内试验研究。分析了粗糙度和光泽度与高度减小、辊面粗糙度、乳化液参数的关系。利用扫描电镜观察了微坑缺陷的表面形貌,讨论了微坑缺陷对轧制压下率、轧辊表面粗糙度、乳化液参数、变形区润滑油用量和工作辊直径的影响。随着压下比的增大,带钢表面粗糙度Ra(s)、Rp(s)和Rv(s)沿轧制方向和宽度方向均呈下降趋势,且轧制方向的下降幅度大于宽度方向。在乳化液浓度为3%和6%,温度为55℃和63℃,轧辊表面粗糙度Ra(r)=0.5 μ m, Ra(r)=0.7 μ m和Ra(r)=1.0 μ m的条件下,当微缺陷比大于23%时,光泽度迅速下降。随着孔道次的增加,微坑缺陷减少,不均匀峰减少,沿轧制方向平缓。微凹坑缺陷随着轧辊表面粗糙度的增加而增加。缺陷率在1 ~ 3道次坡度较大,而在4 ~ 5道次坡度较小。当工作辊直径较小时,咬入角增大,变形区微坑润滑油减少,微缺陷减少,带钢表面光泽度值增大。sus430不锈钢带表面粗糙度和微坑缺陷....
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来源期刊
Advances in Materials Research-An International Journal
Advances in Materials Research-An International Journal MATERIALS SCIENCE, MULTIDISCIPLINARY-
CiteScore
3.50
自引率
27.30%
发文量
0
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