·1364 工程科学学报,第43卷,第10期 roughness in two-stand temper mill rolling.Chin Mech Eng, [17]Jing Y A,Zang X M,Shang Q Y,et al.Evolution of surface 2015,28(3):573 morphologies of piece in process of cold rolling.Steel Roll,2015, [8]Zhang Q D.Zhang B Y,Ma L,et al.Surface roughness rolling- 32(1):31 transfer regularity and prediction model of high strength steel (并玉安,臧晓明,商秋月,等.酸洗冷轧过程中轧件表面形貌演 strips.Chin J Eng,2016,38(1):118 变规律研究.轧钢,2015,32(1):31) (张清东,张勃洋,马磊,等.高强度带钢表面粗糙度轧制转印规 [18]Shi J Y,McElwain D L S,Domanti S A.Some surface profiles of 律及预测模型.工程科学学报,2016,38(1):118) a strip after plane-strain indentation by rigid bodies with serrated [9]Bai Z H,Wang J F.Control technique for surface roughness of surfaces.J Mater Process Technol,2002,124(1-2):227 strip in cold tandem rolling.Iron Steel,006,41(11):46 [19]Wu C H,Zhang L C,Qu P L,et al.A new method for predicting (白振华,王骏飞.冷连轧机成品板面粗糙度控制技术的研究 the three-dimensional surface texture transfer in the skin pass 钢铁,2006,41(11):46) rolling of metal strips.Wear,2019,426-427:1246 [10]Plouraboue F,Boehm M.Multiscale roughness transfer in cold [20]Giarola A M,Pereira P H R,Stemler P A,et al.Strain metal rolling.Tribol Int,1999,32(1):45 heterogeneities in the rolling direction of steel sheets submitted to [11]Dick K,Lenard J G.The effect of roll roughness and lubricant the skin pass:A finite element analysis.J Mater Process Technol, viscosity on the loads on the mill during cold rolling of steel strips. 2015,216:234 J Mater Process Technol,2005,168(1):16 [21]Zhang X F,Li R,Zhang B Y,et al.Model for the generation of [12]Jiang Z Y,Tieu A K.Contact mechanism and work roll wear in surface topography in steel strip temper rolling.J Mech Eng,2013, cold rolling thin strip.Wear,2007,263(7-12):1447 49(14)38 [13]Chen J S,Li C S,Cao Y.Effects of roll roughness on surface and (张晓蜂,李瑞,张勃祥,等.平整轧制过程中带钢表面形貌的生 process parameters for stainless-steel strip.J Mech Eng,2013, 成模型.机械工程学报,2013,49(14):38) 49(4):30 [22]Mishra M,Egberts P,Bennewitz R,et al.Friction model for (陈金山,李长生,曹勇.轧辊粗糙度对不锈钢板带表面和工艺 single-asperity elastic-plastic contacts.Phys Rev B,2012,86(4): 参数的影响.机械工程学报,2013,49(4):30) 045452 [14]Xu D,Yang Q,Wang X C.et al.Influence of lubrication film [23]Poulios K,Klit P.Implementation and applications of a finite- thickness on transfer of surface topography at cold rolling element model for the contact between rough surfaces.Wear, interface.J Harbin Inst Technol,2017,49(1):160 2013,303(1-2):1 (徐冬,杨荃,王晓晨,等.冷轧界面油膜厚度对表面形貌转印过 [24]Mulvihill D M,Kartal M E,Nowell D,et al.An elastic-plastic 程的影响.哈尔滨工业大学学报,2017,49(1):160) asperity interaction model for sliding friction.Tribol Int,2011, [15]Gao X C.Study on control technology of cold rolled strip 44(12):1679 roughness.Bengang Technol,2013(1):31 [25]Le H R,Sutcliffe M P F.Finite element modelling of the evolution (高兴昌.冷轧带钢表面粗糙度的影响因素与复制率研究.本钢 of surface pits in metal forming processes.J Mater Process 技术,2013(1):31) Technol,.2004.145(3):391 [16]Zhang J K,Zhou X M,Jiang J.Analysis of the rolling transfer [26]Xu D,Zhang J,Li H B,et al.Influence factors and control strategy fabrication of cold rolled steel strip surface micro-topography.Mer of cold rolled strip surface roughness.J Cent South Univ Sci World,2018(3):34 Technol,,2017,48(1:112 (张佳康,周晓敏,蒋靖.冷轧带钢表面微观形貌轧制转印规律 (徐冬,张杰,李洪波,等.冷轧带钢表面粗糙度彩响因素及控制 分析.金属世界,2018(3):34) 策略.中南大学学报(自然科学版),2017,48(1):112)roughness in two-stand temper mill rolling. Chin J Mech Eng, 2015, 28(3): 573 Zhang Q D, Zhang B Y, Ma L, et al. Surface roughness rollingtransfer regularity and prediction model of high strength steel strips. Chin J Eng, 2016, 38(1): 118 (张清东, 张勃洋, 马磊, 等. 高强度带钢表面粗糙度轧制转印规 律及预测模型. 工程科学学报, 2016, 38(1):118) [8] Bai Z H, Wang J F. Control technique for surface roughness of strip in cold tandem rolling. Iron Steel, 2006, 41(11): 46 (白振华, 王骏飞. 冷连轧机成品板面粗糙度控制技术的研究. 钢铁, 2006, 41(11):46) [9] Plouraboué F, Boehm M. Multiscale roughness transfer in cold metal rolling. Tribol Int, 1999, 32(1): 45 [10] Dick K, Lenard J G. The effect of roll roughness and lubricant viscosity on the loads on the mill during cold rolling of steel strips. J Mater Process Technol, 2005, 168(1): 16 [11] Jiang Z Y, Tieu A K. Contact mechanism and work roll wear in cold rolling thin strip. Wear, 2007, 263(7-12): 1447 [12] Chen J S, Li C S, Cao Y. Effects of roll roughness on surface and process parameters for stainless-steel strip. J Mech Eng, 2013, 49(4): 30 (陈金山, 李长生, 曹勇. 轧辊粗糙度对不锈钢板带表面和工艺 参数的影响. 机械工程学报, 2013, 49(4):30) [13] Xu D, Yang Q, Wang X C, et al. Influence of lubrication film thickness on transfer of surface topography at cold rolling interface. J Harbin Inst Technol, 2017, 49(1): 160 (徐冬, 杨荃, 王晓晨, 等. 冷轧界面油膜厚度对表面形貌转印过 程的影响. 哈尔滨工业大学学报, 2017, 49(1):160) [14] Gao X C. Study on control technology of cold rolled strip roughness. Bengang Technol, 2013(1): 31 (高兴昌. 冷轧带钢表面粗糙度的影响因素与复制率研究. 本钢 技术, 2013(1):31) [15] Zhang J K, Zhou X M, Jiang J. Analysis of the rolling transfer fabrication of cold rolled steel strip surface micro-topography. Met World, 2018(3): 34 (张佳康, 周晓敏, 蒋靖. 冷轧带钢表面微观形貌轧制转印规律 分析. 金属世界, 2018(3):34) [16] Jing Y A, Zang X M, Shang Q Y, et al. Evolution of surface morphologies of piece in process of cold rolling. Steel Roll, 2015, 32(1): 31 (井玉安, 臧晓明, 商秋月, 等. 酸洗冷轧过程中轧件表面形貌演 变规律研究. 轧钢, 2015, 32(1):31) [17] Shi J Y, McElwain D L S, Domanti S A. Some surface profiles of a strip after plane-strain indentation by rigid bodies with serrated surfaces. J Mater Process Technol, 2002, 124(1-2): 227 [18] Wu C H, Zhang L C, Qu P L, et al. A new method for predicting the three-dimensional surface texture transfer in the skin pass rolling of metal strips. Wear, 2019, 426-427: 1246 [19] Giarola A M, Pereira P H R, Stemler P A, et al. Strain heterogeneities in the rolling direction of steel sheets submitted to the skin pass: A finite element analysis. J Mater Process Technol, 2015, 216: 234 [20] Zhang X F, Li R, Zhang B Y, et al. Model for the generation of surface topography in steel strip temper rolling. J Mech Eng, 2013, 49(14): 38 (张晓峰, 李瑞, 张勃洋, 等. 平整轧制过程中带钢表面形貌的生 成模型. 机械工程学报, 2013, 49(14):38) [21] Mishra M, Egberts P, Bennewitz R, et al. Friction model for single-asperity elastic-plastic contacts. Phys Rev B, 2012, 86(4): 045452 [22] Poulios K, Klit P. Implementation and applications of a finiteelement model for the contact between rough surfaces. Wear, 2013, 303(1-2): 1 [23] Mulvihill D M, Kartal M E, Nowell D, et al. An elastic–plastic asperity interaction model for sliding friction. Tribol Int, 2011, 44(12): 1679 [24] Le H R, Sutcliffe M P F. Finite element modelling of the evolution of surface pits in metal forming processes. J Mater Process Technol, 2004, 145(3): 391 [25] Xu D, Zhang J, Li H B, et al. Influence factors and control strategy of cold rolled strip surface roughness. J Cent South Univ Sci Technol, 2017, 48(1): 112 (徐冬, 张杰, 李洪波, 等. 冷轧带钢表面粗糙度影响因素及控制 策略. 中南大学学报 (自然科学版), 2017, 48(1):112) [26] · 1364 · 工程科学学报,第 43 卷,第 10 期