CVC1800轧机辊系的ANSYS建模与分析
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摘要
辊形是板形控制最重要的因素,为了较好地控制辊形的目的,文章根据变形特点,采用以APDL命令流构建模型的方法,来确保模型参数的可修改性,用ANSYS将轧机辊系的工作辊和支撑辊一起建模,并通过软件仿真结果再结合工厂实际结果比较,研究发现这样更好的研究轧辊的弹性变形,得到更好控制辊形的结论。
According to the deformation characteristics of strip shape,APDL command stream was used to build a model to better control the shape of a roll; therefore,the modifiability of the model parameters could be ensured. By using ANSYS,the working roll and supporting roll of the rolling mill system were modeled together. The simulation results showed that this method was more suitable to study the elastic deformation of the roll by which the roll shape might be better controlled.
According to the deformation characteristics of strip shape,APDL command stream was used to build a model to better control the shape of a roll; therefore,the modifiability of the model parameters could be ensured. By using ANSYS,the working roll and supporting roll of the rolling mill system were modeled together. The simulation results showed that this method was more suitable to study the elastic deformation of the roll by which the roll shape might be better controlled.
引文
[1]陈胜利,徐致让,刘仍彬.四辊CVC轧机板形影响因素的有限元分析[J].冶金自动化,2008,32(4):23-27.
[2]陈胜利,何安瑞,徐致让,等.四辊CVC轧机机械板凸度有限元求解[J].塑性工程学报,2015,22(2):127-131.
[3]卢耀祖,李悦.有限元计算中用间隙元模拟非线性弹性支承[J].上海汽车,1997(4):5-6.
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[5]刘文仲.我国热轧过程控制计算机系统及数学模型的发展[J].冶金自动化,2012,36(4):1-7.
[6]日本钢铁协会.板带轧制理论与实践[M].王国栋,吴国良,等,译.北京:中国铁道出版社,1990.
[7]SHOHET K N,TOWNSEND N A.Flatness control in plate rolling[J].Journal of The Iron and Steel Institute,1971,209:769-775.
[8]王国栋.板形控制和板形理论[M].北京:冶金工业出版社,1986.
[9]刘宏民.板形理论的研究现状与发展方向[J].钢铁,1993,28(2):75-78.
[10]刘宏民.三维轧制理论及其应用:模拟轧制过程的条元法[M].北京:科学出版社,1999.
[11]CAVALIERE M A,GOLDSCHMIT M B.DVORKIN EN.Finite element analysis of steel rolling processes[J].Computers&Structures,2001,79(22/25):2075-2089.
[12]TIEU A K,JIANG Z Y,LU C.A 3D finite element analysis of the hot rolling of strip with lubrication[J].Journal of Materials Processing Technology.2002,125-126:638-644.
[13]张清东,孙向明.六辊CVC轧机辊系变形的有限元分析[J].中国机械工程,2007,18(7):789-792.
[14]KIM J,HWANG S.A new model for the prediction of the steepness profile across the strip in flat rolling[C]∥10th International Conference on Numerical Methods in Industrial Forming Processes.Pohang,2010:731-738.
[15]徐致让,薛家国.四辊轧机辊系变形分析的有限元方法[J].力学与实践,2000,22(5):22-24.
[16]李洪波,张杰,曹建国,等.五次CVC工作辊辊形与板形控制特性[J].机械工程学报,2012,48(12):24-30.
[2]陈胜利,何安瑞,徐致让,等.四辊CVC轧机机械板凸度有限元求解[J].塑性工程学报,2015,22(2):127-131.
[3]卢耀祖,李悦.有限元计算中用间隙元模拟非线性弹性支承[J].上海汽车,1997(4):5-6.
[4]张进之.板形理论的进步与应用[J].冶金设备,2001,125(1):1-5.
[5]刘文仲.我国热轧过程控制计算机系统及数学模型的发展[J].冶金自动化,2012,36(4):1-7.
[6]日本钢铁协会.板带轧制理论与实践[M].王国栋,吴国良,等,译.北京:中国铁道出版社,1990.
[7]SHOHET K N,TOWNSEND N A.Flatness control in plate rolling[J].Journal of The Iron and Steel Institute,1971,209:769-775.
[8]王国栋.板形控制和板形理论[M].北京:冶金工业出版社,1986.
[9]刘宏民.板形理论的研究现状与发展方向[J].钢铁,1993,28(2):75-78.
[10]刘宏民.三维轧制理论及其应用:模拟轧制过程的条元法[M].北京:科学出版社,1999.
[11]CAVALIERE M A,GOLDSCHMIT M B.DVORKIN EN.Finite element analysis of steel rolling processes[J].Computers&Structures,2001,79(22/25):2075-2089.
[12]TIEU A K,JIANG Z Y,LU C.A 3D finite element analysis of the hot rolling of strip with lubrication[J].Journal of Materials Processing Technology.2002,125-126:638-644.
[13]张清东,孙向明.六辊CVC轧机辊系变形的有限元分析[J].中国机械工程,2007,18(7):789-792.
[14]KIM J,HWANG S.A new model for the prediction of the steepness profile across the strip in flat rolling[C]∥10th International Conference on Numerical Methods in Industrial Forming Processes.Pohang,2010:731-738.
[15]徐致让,薛家国.四辊轧机辊系变形分析的有限元方法[J].力学与实践,2000,22(5):22-24.
[16]李洪波,张杰,曹建国,等.五次CVC工作辊辊形与板形控制特性[J].机械工程学报,2012,48(12):24-30.
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