A smart experimental setup for vibration measurement and imbalance fault detection in rotating machinery

“…The improvement of the calculation model based on the obtained dynamic characteristics is proposed. The application of the method to nonlinear active vibration control systems is presented in [7]. According to the authors, this method allows to get a result without significant knowledge about the dissipative properties of the system, of course it gives advantages and reduces the time for research.…”

Experimental determination of the spectrum of structure vibrations under the influence of technological load

“…The improvement of the calculation model based on the obtained dynamic characteristics is proposed. The application of the method to nonlinear active vibration control systems is presented in [7]. According to the authors, this method allows to get a result without significant knowledge about the dissipative properties of the system, of course it gives advantages and reduces the time for research.…”

Experimental determination of the spectrum of structure vibrations under the influence of technological load

“…Rotor balancing is required on all types of rotating machinery to ensure smooth machine operation [1]. A perfectly balanced shaft is not easy to achieve, even under normal operating conditions.…”

Experimental setup for unbalance fault detection and vibration analysis in a cardan shaft (Part B)

“…Phenomena in complex nonlinear systems, as noted by the authors of [6], are a promising direction and require additional research. In [7], the method of active vibration control is applied to nonlinear systems. The advantage of such an integral method is that there is no need to know the parameters of the system, such as mass, dissipation and stiffness coefficients, which are usually obtained by finite element methods.…”

Development of the organizational principles of formation of the optimal diagram and parameters of vibration system