Nihon Kikai Gakkai ronbunshu (Sep 2019)
Development of a tuning algorithm for a dynamic vibration absorber with a variable stiffness property
Abstract
In this study, we propose a frequency estimation method based on an adaptive line enhancer (ALE) algorithm to be used for changing property of the frequency-tunable dynamic vibration absorber (DVA). The method is known to have an excellent noise tolerance feature compared to the conventional method, and is possible to estimate the signal frequency with high accuracy by repeatedly optimizing the filter coefficients. An elastomer composite with controllable stiffness, known as a magnetorheological elastomer (MRE), is used in a dynamic vibration absorber whose natural frequency is tuned adaptively to the disturbance frequency through the application of an external magnetic field. Firstly, we explain the structure of a variable stiffness DVA and the mechanism of the proposed frequency tuning algorithm. Secondly, the test result of the DVA properties, namely, the natural frequency and damping ratio is shown. By taking full advantage of the frequency adjustability of the proposed DVA, we then evaluated the real-time vibration control performance for an acoustically excited plate having multiple resonant peaks. The sweep excitation tests show that the vibration of the structure can be effectively reduced with an improved performance by using the adaptive-tuned DVA to be used with the proposed frequency estimation algorithm.
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