Precession Decomposition and its Application in Rotor Dynamic Balancing
Lei Wen-ping1,2, Han Jie1, Chen Hong1, Gong Xiao-yun1,2
Author information+
1. Institute of Vibration Engineering, Zhengzhou University, Zhengzhou 450001;
2. School of Chemical Engineering and Energy, Zhengzhou University, Zhengzhou 450001
When rotor-bearing system has significant anisotropic stiffness, the conventional rotor dynamic balancing method which basing on unidirectional sensor of a section can be influenced by the direction of the sensor, as a result, balancing effect is unstable. This paper proposes a modified Influence Coefficient Method which makes good use of paired transducers of each section and obtained a good effect. In this method, an elliptical orbit is decomposed into forward precession and backward precession, then, the amplitude (radius) and phase of the former can be used to substitute the traditional unbalance response to fulfill the rotor balance. Numerical simulation based on finite element method show that, if nonlinear factor and measurement error are neglected, the modified method keeps a highly compatibility with the conventional one by yielding a close result. Furthermore, experiment on rotor test rig suggests that the modified method has a higher accuracy.
Lei Wen-ping; Han Jie; Chen Hong; Gong Xiao-yun;.
Precession Decomposition and its Application in Rotor Dynamic Balancing [J]. Journal of Vibration and Shock, 2012, 31(11): 133-136,
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