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Performance of a dual-stage inerter-based vibration isolator
This paper investigates the dynamic behaviour and performance of a dual-stage inerter-based vibration isolator. Force transmissi-bility and vibration power flow variables are used as performance indices to evaluate the effectiveness of the inerter-based vibration isolator. Vibration power input, transmission and dissipation characteristics of the system are examined. It is found that the inclusion of inerters in dual-stage vibration isolator can reduce force and vibration power flow transmission over a larger band of excitation frequencies. The addition of inerters can also introduce notches in the curves of force transmissibility and time-averaged transmitted power such that the vibration transmission may be greatly suppressed at pre-determined excitation frequencies. These findings demonstrate the potential benefits of employing inerters in vibration isolation and facilitate better understanding of vibration mitigation systems with such element.
Performance of a dual-stage inerter-based vibration isolator
This paper investigates the dynamic behaviour and performance of a dual-stage inerter-based vibration isolator. Force transmissi-bility and vibration power flow variables are used as performance indices to evaluate the effectiveness of the inerter-based vibration isolator. Vibration power input, transmission and dissipation characteristics of the system are examined. It is found that the inclusion of inerters in dual-stage vibration isolator can reduce force and vibration power flow transmission over a larger band of excitation frequencies. The addition of inerters can also introduce notches in the curves of force transmissibility and time-averaged transmitted power such that the vibration transmission may be greatly suppressed at pre-determined excitation frequencies. These findings demonstrate the potential benefits of employing inerters in vibration isolation and facilitate better understanding of vibration mitigation systems with such element.
Performance of a dual-stage inerter-based vibration isolator
Yang, Jian (Autor:in) / Jiang, Jason Z. (Autor:in) / Zhu, Xiang (Autor:in) / Chen, Hao (Autor:in)
01.01.2017
Yang , J , Jiang , J Z , Zhu , X & Chen , H 2017 , ' Performance of a dual-stage inerter-based vibration isolator ' , Procedia Engineering , vol. 199 , pp. 1822-1827 . https://doi.org/10.1016/j.proeng.2017.09.097
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
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