锻压技术

四辊板带轧机全宽度辊缝横向刚度分析

英文标题：Analysis on transverse rigidity along entire roll gap width of four-roller strip mill

作者：陈曦张小平刘光明黄小洋

单位：太原科技大学

分类号：TG376

出版年,卷(期):页码：2015,40(9):111-116

摘要：

承载辊缝的横向刚度表示承载辊缝凸度抵抗轧制力波动而保持不变的能力。为分析板带轧机整个辊缝宽度的板形控制特性，提出了轧机全辊缝横向刚度的概念。以实验室四辊板带轧机为研究对象，利用三维弹塑性有限元模型，建立了耦合支撑辊轴承箱、轴承、轧辊和轧件的有限元分析模型，分析了轧件宽度、压下率、变形抗力和张力对辊缝内各点横向刚度的影响。研究结果表明，辊缝内各点横向刚度随着轧件宽度和张力的增加而增大，随着压下率和变形抗力增加而减小。

The transverse rigidity of load-carrying roll gap represents the ability of the load-carrying roll gap convexity remaining constant while resisting fluctuation of rolling force. To analyze the strip shape control characteristics of the entire roll gap, the concept of transverse rigidity along entire roll gap was proposed. For four-roller strip mill, the finite element analysis model coupling the bearing boxes of back-up roll, bearings, rolls and rolled piece was established by the 3-D elastic-plastic finite element model, and influences of strip width, reduction rate, rolling resistance and tension on the transverse rigidity of each point in the roll gap of the four-roller strip mill were analyzed. The results show that the transverse rigidity of each point in the roll gap increase with the increase of strip width and tension, and decreases with the increase of reduction rate and rolling resistance.

基金项目：

国家重点基础研究发展计划项目(2012CB722801)；国家自然科学基金资助项目(51404159)；山西省科技攻关项目(20130321010-03)；山西省自然科学基金(2013021019-1)；山西省高校青年学术带头人计划资助(TYAL)；太原科技大学研究生创新项目（20134005）

陈曦(1990-)，女，硕士研究生

参考文献：

［1］李学通，吴志贺，杜凤山，等. 四辊平整机轧制过程辊系变形有限元分析[J]. 塑性工程学报,2008, 15(2): 126-130.Li X T，Wu Z H，Du F S，et al. FEA on rolls deformation in rolling process of 4-roll skin miller[J]. Journal of Plasticity Engineering, 2008, 15(2): 126-130.
［2］孙蓟泉，周永红. 板形控制技术及应用[J]. 鞍钢技术, 2006,(4): 6-11.Sun J Q，Zhou Y H. Plate shape control technique and its application[J]. Angang Technology,2006,(4): 6-11.
［3］杜凤山，张尚斌，王贵国. 六辊轧机刚度特性有限元[J]. 塑性工程学报,2010, 17(3): 148-152.Du F S，Zhang S B，Wang G G . Finite element study of the rigidity characteristics of a six-high mill[J]. Journal of Plasticity Engineering, 2010, 17(3): 148-152.
［4］田勇，胡贤磊，赵忠，等. 四辊轧机横向刚度的计算[J]. 宽厚板, 2005, 11(4): 28-30.Tian Y，Hu X L，Zhao Z , et al. Horizontal rigidity calculation of four high mill[J]. Wide and Heavy Plate, 2005, 11(4): 28-30.
［5］魏娟，杨荃，何安瑞，等. 六辊轧机刚度特性有限元分析[J]. 塑性工程学报,2007, 14(6): 51-54.Wei J，Yang Q，He A R，et al . Finite element analysis of the rigidity characteristics of a six-high mill[J]. Journal of Plasticity Engineering, 2007, 14(6): 51-54.
［6］李登超. 不锈钢板带材生产技术[M]. 北京: 化学工业出版社, 2008.Li D C. Stainless Steel Plate and Strip Production Technology[M]. Beijing: Chemical Industry Press, 2008.
［7］Liu Deyi，Shen Guangxian，Yu Chunxiao，et al. Study on multiple boundary element for three-dimensional elastic contact problem with friction[J]. Advance in Boundary Element Techniques IV, 2003, 34(9):155-161.
［8］姜晓艳，刑淑清，董丽丽. 张力在冷轧过程中对板带材压下量的影响[J]. 内蒙古科技大学学报，2011, 30(4): 360-363.Jiang X Y，Xing S Q，Dong L L. The influence of tension on the strip steel in cold strip rolling process[J]. Journal of Inner Mongolia University of Science and Technolgy,2011, 30(4): 360-363.

服务与反馈：

【本网站尚未开通全文下载服务】【加入收藏】