International Journal of Mechanical Engineering

As an advanced mechanical technology, magnetic suspension bearings are widely used in high-precision equipment. During their operation, they may encounter vibration and unbalance issues, which affect the stability and performance of the system. To address these problems, this paper proposes a method for active vibration suppression and unbalance compensation. By designing an intelligent control system, it effectively suppresses vibrations and achieves unbalance compensation. This method combines the dynamic characteristics of magnetic suspension bearings and uses active control technology to conduct real-time monitoring and adjustment of vibrations. Experimental results show that this method can significantly improve the stability and reliability of the system, with good application prospects. The research in this paper provides a theoretical basis and technical support for the optimal design and practical application of magnetic suspension bearings.

Magnetic suspension bearings; Active vibration suppression; Unbalance compensation; Intelligent control; Dynamic characteristics