Surface Morphology Evolution of Steel Strip During Cold Rolling After Hydrogen Reduction
JING Yu-an1, ZANG Xiao-ming1, SHANG Qiu-yue1, QIN Yi1, LI Fu-qiang2, LIU Ying-ming2
1. Liaoning Key Laboratory for Material Molding and Organizational Performance Control, University of Science and Technology Liaoning, Anshan 114051, Liaoning, China 2. Cold Rolling Factory of Angang, Anshan 114001,Liaoning, China)
Abstract:A five-pass cold rolling experiment of steel strip after hydrogen reduction was performed on a 4-high mill. The surface morphologies of samples were observed by SEM and the surface roughness curves were measured by using a TR200 roughness meter before and after rolling deformation. The evolution rules of the sample surface morphology under different roll surface roughness and lubrication conditions were emphatically analyzed and discussed. The results showed that most of defects on the sample surface were roll-flattened after five-pass cold rolling, and the remains turned into micro pits leaving on the sample surface. The surface smoothness increased with the increase of rolling passes. The cracks were easier to be roll-flattened and the residual defects were less and shallow on the sample surface but the roller marks were relatively more under the condition of dry friction than under the condition of oil lubrication.
收稿日期: 2014-04-14
出版日期: 2014-12-02
引用本文:
井玉安, 臧晓明, 商秋月, 覃 毅, 李富强, 刘英明. 还原冷轧过程中带钢表面形貌演变规律[J]. 钢铁, 2014, 49(12): 38-43.
JING Yu-an, ZANG Xiao-ming, SHANG Qiu-yue, QIN Yi, LI Fu-qiang, LIU Ying-ming. Surface Morphology Evolution of Steel Strip During Cold Rolling After Hydrogen Reduction. Iron and Steel, 2014, 49(12): 38-43.
Primavera A, Cattarino S, Pavlicevic M. Influence of process parameters on scale reduction with H2 [J]. Ironmaking and Steelmaking, 2007, 34 (4): 290-294.
[1]
Primavera A, Cattarino S, Pavlicevic M. Influence of process parameters on scale reduction with H2 [J]. Ironmaking and Steelmaking, 2007, 34 (4): 290-294.
[2]
Samways N L. Strong Competitor With Traditional Pickling Process-Hydrogen Reduction Scale Removal Process [J]. World Iron& Steel, 2002, (2): 47-51.
[2]
Samways N L. Strong Competitor With Traditional Pickling Process-Hydrogen Reduction Scale Removal Process [J]. World Iron& Steel, 2002, (2): 47-51.
Shi Jie, Wang De-ren, He Ye-dong, Qi Hui-bin, Wei Gao. Reduction of oxide scale on hot-rolled strip steels by carbon monoxide [J]. Materials Letters, 2008, 62(20):3500-3502.
[4]
Shi Jie, Wang De-ren, He Ye-dong, Qi Hui-bin, Wei Gao. Reduction of oxide scale on hot-rolled strip steels by carbon monoxide [J]. Materials Letters, 2008, 62(20):3500-3502.
Turkdogan E. T. and Vinters J. V. Gaseous Reduction of Iron Oxides: Part Ⅰ. Reduction of Hematite in Hydrogen, Metallurgical Transactions, 1971, 2(11): 3175-3188.
[7]
Turkdogan E. T. and Vinters J. V. Gaseous Reduction of Iron Oxides: Part Ⅰ. Reduction of Hematite in Hydrogen, Metallurgical Transactions, 1971, 2(11): 3175-3188.
[8]
Ahmed R., Sutcliffe M.P.F. Identification of surface features on cold-rolled stainless steel strip [J]. Wear, 2000, 244: 60.
[8]
Ahmed R., Sutcliffe M.P.F. Identification of surface features on cold-rolled stainless steel strip [J]. Wear, 2000, 244: 60.
[9]
Sutcliffe M.P.F, Georgiades F. Characterisation of pit geometry in cold-rolled stainless steel strip [J]. Wear, 2002, 253: 963.
[9]
Sutcliffe M.P.F, Georgiades F. Characterisation of pit geometry in cold-rolled stainless steel strip [J]. Wear, 2002, 253: 963.
[10]
Le H R, Sutcliffe M P F. Analysis of surface roughness of cold-rolled aluminium foil [J].Wear, 2000, 244: 71.
[10]
Le H R, Sutcliffe M P F. Analysis of surface roughness of cold-rolled aluminium foil [J].Wear, 2000, 244: 71.