Numerical simulation and dynamic experimental investigation on vibration control of a structural system with a stacked single particle‐inerter damper
Author(s): |
Haoding Sun
Haoxiang He Yang Cheng Xiaojian Gao |
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Medium: | journal article |
Language(s): | English |
Published in: | Earthquake Engineering and Structural Dynamics, 11 August 2024, n. 11, v. 53 |
Page(s): | 3649-3677 |
DOI: | 10.1002/eqe.4191 |
Abstract: |
To overcome the deficiencies of large particle radius, strict vibration conditions, and low kinetic energy exchange rate of traditional particle dampers, it is proposed to organically combine the rack and pinion inerter device with a stacked single particle damper (SSPD) to form a novel stacked single particle‐inerter damping system (SSPIS). Based on a detailed analysis of the force state of particles at various stages, the vibration damping mechanism of SSPIS is analyzed, and a mechanical model of a single‐degree‐of‐freedom (SDOF) structure equipped with an SSPIS is established. The numerical simulation and analysis process of SSPIS is provided, and a parametric design method of inerter device based on the structural performance requirements is proposed. The accuracy of the theoretical mechanical model and numerical simulation analysis process of SSPIS is verified through shaking table tests of a single‐story steel frame, and the actual damping control effect of SSPIS on the controlled structure is investigated. Both test and theoretical results show that the numerical simulation analysis process of SSPIS is clear and accurate, and the mechanical model of the SSPIS‐SDOF structural system is highly accurate. The inerter device in SSPIS can significantly improve the momentum exchange efficiency between particles and structures, and SSPIS could adaptively adjust the particle radius size on demand compared with the traditional particle dampers, with a high damping frequency band, and can realize good damping control effect under the earthquake with various types of sites, which has expansive engineering application scenarios. |
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data sheet - Reference-ID
10791704 - Published on:
01/09/2024 - Last updated on:
01/09/2024