锻压技术

分段对称非线性刚度作用下的轧机辊系分岔与混沌行为分析

英文标题：Analysis on bifurcation and chaos behavior of mill rolls under piecewise symmetric nonlinear stiffness

作者：彭荣荣巩长芬

单位：1.南昌工学院理学院江西南昌 330108 2. 南昌工学院财富管理学院江西南昌 330108

分类号：O322；TH113

出版年,卷(期):页码：2019,44(5):99-104

摘要：

考虑轧机辊系间分段对称非线性刚度以及轧机受到的外部周期性激励的影响，建立了具有分段对称非线性刚度的轧机辊系振动模型。应用最小二乘法将分段对称非线性刚度项拟合成一条连续曲线，给出了振动系统的动力学方程，并运用多尺度法求解轧机振动系统的幅频方程，在此基础上运用奇异性理论得到余维为3的轧机振动系统分岔响应方程，讨论了3种不同开折参数情形下系统的稳态响应转迁集，研究了振动系统在非自治情形下的分岔特性及出现不同分岔形态的条件。通过数值仿真，研究了轧机振动系统的安全盆被侵蚀的过程与通向混沌过程的趋势及临界值，给出了轧机振动系统的安全盆分岔行为和混沌行为特征。研究结果为轧机振动系统中广泛存在的动力学行为分析与控制提供了一定的理论参考。

Considering the influences of piecewise symmetrical nonlinear stiffness between rolls of rolling mill and external periodic excitation on rolling mill, a vibration model of mill rolls with piecewise symmetrical nonlinear stiffness was established. Firstly, the piecewise symmetric nonlinear stiffness term was fit into a continuous curve by the least square method to give the dynamic equation of vibration system, and the amplitudefrequency response equation of the system was solved by multiscale method. On this basis, the bifurcation response equation of the mill vibration system with codimension 3 was obtained by the singularity theory, and the steadystate response transition set of the system with three different folding parameters was discussed. Furthermore, the bifurcation characteristics and the conditions of different bifurcation patterns of the vibration system were studied in the case of nonautonomous. Finally, the erosion process of the safety basin for vibration system and the trend and critical value of the system to chaos were studied by numerical simulation, and the bifurcation and chaos behaviors of the safe basin for vibration system were given. The research results provide a theoretical reference for the analysis and control of dynamic behavior which widely exists in the rolling mill vibration system.

基金项目：

2018年度江西省教育厅科学技术研究项目(GJJ181061)

作者简介：彭荣荣（1987-），男，硕士，讲师 Email：〖WTBZ〗15294476178@163.com

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