CVC工作辊非对称磨损分析与预报模型建立

钢铁, 2016, 51(6): 59-64. doi: 10.13228/j.boyuan.issn0449-749x.20150601

CVC工作辊非对称磨损分析与预报模型建立

尚飞 ^1, , 李洪波 ^2, , 张杰 ^3, , 胡超 ^4, , 张超 ^5, , 陈剑飞 ^6,

1.北京科技大学机械工程学院,北京,100083

2.北京科技大学机械工程学院,北京,100083

3.北京科技大学机械工程学院,北京,100083

4.武汉钢铁股份有限公司条材总厂,湖北武汉,430083

5.武汉钢铁股份有限公司条材总厂,湖北武汉,430083

6.武汉钢铁股份有限公司条材总厂,湖北武汉,430083

基金项目: 国家"十二五"科技支撑计划资助项目(2015BAF30B01)

关键词： CVC , 工作辊 , 磨损辊形 , 非对称 , 磨损模型 , 遗传算法

Asymmetric wear and wear prediction model of CVC work roll

Keywords： CVC , work roll , wear contour , asymmetric , wear prediction model , genetic algorithm

CVC辊形以其较强的凸度控制能力在热连轧中有着广泛的应用,但是CVC辊形不具有均匀磨损的能力,其磨损往往比较严重,且呈现出非对称性.针对该特点提出CVC工作辊非对称磨损的表征方法,利用该方法对某1800 mm CSP生产线下游机架CVC工作辊非对称磨损情况进行分析.统计结果表明,下游机架工作辊磨损多为非对称形式,并与CVC辊形呈现出一定的对应性.在此基础上,提出辊径对整体磨损影响系数及辊径对轧制力影响系数2个新的磨损模型参数,并建立针对CVC轧辊的非对称磨损预报模型,利用遗传算法对模型参数进行优化,并利用实测数据进行验证,改进后磨损模型精度比常规磨损模型精度平均提高了约35%.

The CVC work roll is widely used because of its strong crown control ability in hot strip rolling. However, CVC work roll can't uniform the roll wear. So the CVC work roll wear is serious and its wear form is asymmetric. The characterization method of asymmetric wear for CVC work roll is proposed in the current study. With this method,the downstream CVC work roll wears of the 1800 mm CSP production line are analyzed. It is found that the CVC work roll wears of downstream stands are always asymmetric and there is a relationship between the CVC work roll contour and the CVC work roll wear contour. Based on the analysis,the influence coefficient of roll diameter for the CVC work roll wear and the influence coefficient of roll diameter for the rolling pressure are proposed. The asymmetric wear prediction model for CVC work roll is built,the parameters of the model are optimized by using genetic algorithm. The asymmet-ric wear prediction model has been verified with measured data,the accuracy of the improved wear prediction model is improved by about 35%compared with the conventional wear prediction model.

参考文献

[1]	Dong, Qiang;Cao, Jian-guo;Li, Hong-bo;Zhou, Yun-song;Yan, Tan-li;Wang, Wu-zhou.Analysis of Spalling in Roughing Mill Backup Rolls of Wide and Thin Strip Hot Rolling Process[J].Steel Research International,20152(2):129-136.
[2]	胡健.热轧带钢轧辊磨损与起筋现象分析[J].中国冶金,2014(11):31-34,41.
[3]	于斌;王义栋;杨旭;郭宝安;刘宏民;王东城.热连轧带钢断面形状的修正模型及其应用[J].钢铁,2014(6):43-47.
[4]	郭忠峰;徐建忠;刘相华.1700热连轧机轧辊磨损模型研究[J].东北大学学报(自然科学版),2007(10):1378-1380.
[5]	左远鸿.热轧带钢断面轮廓的控制与优化[J].中国冶金,2013(7):37-39,47.
[6]	R.Servin-Casta(n)eda;A.M.Garcia-Lara;R.D.Mercado-Solís;C.A.Vega-Lebrun.Development of Mathematical Model for Control Wear in Backup Roll for Hot Strip Mill[J].钢铁研究学报（英文版）,2014(01):46-51.
[7]	R. TURK;P. FAJFAR;R. ROBIC.PREDICTION OF HOT STRIP MILL ROLL WEAR[J].Metalurgija,20021(1):47-51.
[8]	曹燕;钱春风;刘相华;王巍.1780mm热轧机组轧辊磨损模型参数的优化[J].轧钢,2010(2):24-27.
[9]	张杰;许焕宾;李洪波;刘会聪;周一中.热轧带钢平整机工作辊的不均匀磨损及其降低措施[J].中南大学学报（自然科学版）,2011(6):1611-1616.
[10]	何安瑞;张清东;徐金梧;陈先霖;魏钢城;黄四清.热轧工作辊磨损模型的遗传算法[J].钢铁,2000(2):56-59.
[11]	郑旭涛;张杰;李洪波;程方武;胡伟东;石磊.宽带钢热连轧机工作辊不均匀磨损计算模型[J].钢铁,2015(5):49-53,74.
[12]	Cao Jian-guo;Liu Si-jia;Zhang Jie;Song Ping;Yan Tan-li;Zhou Yi-zhong.ASR work roll shifting strategy for schedule-free rolling in hot wide strip mills[J].Journal of Materials Processing Technology,201111(11):1768-1775.
[13]	连家创;黄传清;陈连生.2050 CVC热连轧机精轧机组轧辊磨损的研究[J].钢铁,2002(3):24-27.
[14]	王仁忠;杨荃;何安瑞;邵健;史乃安.LVC工作辊磨损辊形及磨损预报模型研究[J].钢铁,2008(7):51-54.

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