A parameter design method for smart spring vibration suppression system with damping
NI De ZHU Ru-peng FU Qiu-ju BAO He-yun LU Feng-xia
Jiangsu Key Laboratory of Precision and Micro-Manufacturing Technology, College of Mechanical and Electrical Engineering, Nanjing University of Aeronautics and Astronautics, Nanjing 210016, China
Abstract:A design method for system parameters of smart spring system with linear viscous damping under harmonic excitation is presented, which can make the smart spring system implement both stiffness and damping control. First, the analytical solutions of frequency response characteristics of smart spring system were deduced by equivalent linear method. Then, the influence of system parameters on the amplitude frequency characteristics of system was analyzed. The results show that the amplitude frequency characteristic curve cluster has a common point for the smart spring system without viscous damping, but the common point will disappear for the system with damping. The main system parameters that affect the amplitude frequency characteristics of system are the mass ratio, stiffness ratio, damping ratio and control parameter. And the system parameters of which affect the size of required actuator force to make the two mass-spring systems become fully coupled are damping ratio and relative damping ratio. Based on the conclusions of foregoing parameter analysis, the selection scope of system parameters of smart spring system was determined and the steps of parameter design were proposed.
倪德;朱如鹏;付秋菊;鲍和云;陆凤霞. 有阻尼智能弹簧减振系统参数的一种设计方法[J]. , 2014, 33(23): 116-121.
NI De ZHU Ru-peng FU Qiu-ju BAO He-yun LU Feng-xia. A parameter design method for smart spring vibration suppression system with damping. , 2014, 33(23): 116-121.