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DYNA
Print version ISSN 0012-7353On-line version ISSN 2346-2183
Abstract
BARREDO, Eduardo; MENDOZA-LARIOS, José Gabriel; MAZON-VALADEZ, Cuauhtémoc and MALDONADO-BRAVO, Irving Abdiel. Rotational inertia-based tuned-mass-damper for controlling force transmission. Dyna rev.fac.nac.minas [online]. 2023, vol.90, n.225, pp.131-139. Epub Feb 15, 2024. ISSN 0012-7353. https://doi.org/10.15446/dyna.v90n225.104707.
Nowadays, the inerter device has become one of most popular mechanical devices in the vibration absorption field for both stationary and non-stationary mechanical structures. One of the problems commonly reported in the literature is the force transmission control in the foundations that support the machines, which is generally addressed by using either isolators or classic dynamic vibration absorbers (DVAs). However, the mechanical energy dissipation capability of these two solutions is still limited. This work focuses on improving the control performance for the conventional absorber using the inerter’s inertial mass amplification and negative stiffness effects. In order to fairly evaluate the control performance of the DVA based on grounded inerter, the and optimization criteria are proposed. When the dimensionless frequency response function (FRF) of the transmissibility is minimized at the resonant peaks, the criterion reveals an improvement of 29.74% in mitigating harmonic vibration. Finally, the total vibration energy transmitted to the foundation is minimized via criterion that provides an improvement of 33.03%.
Keywords : Inerter; control frequencies tuning; passive vibration control; invariant frequencies; ℋ∞ norm; ℋ2 norm.