Method for determining the rational parameters of dynamic dampers of low-frequency vibrations

Method for determining the rational parameters of dynamic dampers of low-frequency vibrations

The problems have been considered of natural nonlinear vibrations of an absolutely rigid semiball and a semicylinder on a horizontal plane, assuming that there is no energy dissipation, sliding and tipping on foundation. To adjust the damper to a frequency close to the fundamental tone of vibrations...

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Bibliographic Details
Published in:E3S web of conferences Vol. 109; p. 49
Main Authors: Lapshyn, Yevhen, Molchanov, Robert, Khaminich, Oleksandr
Format: Journal Article Conference Proceeding
Language:English
Published: Les Ulis EDP Sciences 01-01-2019
Subjects:
Amplitudes
Computer applications
Dampers
Energy dissipation
Linearization
Nonlinear systems
Product design
Resonant frequencies
Vibrations
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Summary:The problems have been considered of natural nonlinear vibrations of an absolutely rigid semiball and a semicylinder on a horizontal plane, assuming that there is no energy dissipation, sliding and tipping on foundation. To adjust the damper to a frequency close to the fundamental tone of vibrations, it is necessary to assess the natural frequency of the damper, which is determined under the assumption on smallness of the vibrations amplitude. This paper represents the comparison of the natural frequency of linearized and nonlinear system. The relative error has been estimated of the natural frequency calculation, which is caused by linearization. It is shown that the ratio of the natural frequency of the linearized system to the natural frequency of the nonlinear system does not depend on the mass and radius. This conclusion made it possible to generalize the results of particular computational solutions and to obtain a formula which takes into account the amplitude influence on the natural vibrations frequency and helps to determine the natural frequency for the initial angles to ninety degrees.
ISSN:2267-1242
2555-0403
2267-1242
DOI:10.1051/e3sconf/201910900049