Structural state nonlinearity-based design and modification formulae of inerter-based systems

As structural safety emerges as a paramount concern and with the advancement in vibration control technology, a notable gap persists in accurately simulating structural state nonlinearity, especially within the field of inerter-based seismic control technology. Dealing with the need to upgrade the s...

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Published inSoil dynamics and earthquake engineering (1984) Vol. 187; p. 108946
Main Authors Zhang, Ruifu, Wu, Minjun, Zhao, Zhipeng, Tang, Yuanchen
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.12.2024
Subjects
Design formulae
Inerter
Performance-based design
Structural state nonlinearity
Performance-based design
Structural state nonlinearity
Design formulae
Inerter
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Abstract As structural safety emerges as a paramount concern and with the advancement in vibration control technology, a notable gap persists in accurately simulating structural state nonlinearity, especially within the field of inerter-based seismic control technology. Dealing with the need to upgrade the seismic performance of practical nonlinear structures, this study proposes a structural state nonlinearity-based design method for inerter-incorporated civil structures by incorporating the target seismic performance, structural nonlinearity level, and ground motion effects. By establishing mechanical models of inerter-based systems with straightforward parameters and a prototypical bilinear model for the primary structure, governing equations for inerter-incorporated structures were derived. Later, structural state nonlinearity-based design method for inerter-based systems, including optimization criteria and parameter distribution pattern, is elaborated. Simultaneously, this study also provides structural state nonlinearity-based design curves and modification formulae related to structural state nonlinearity and peak ground acceleration of earthquake. Validated using a 10-story multiple-degree-of-freedom (MDOF) structure subjected to earthquakes, the results highlight the effectiveness of the method, emphasizing its potential in controlling seismic responses of structures within the predetermined performance target. In addition, the absolute acceleration mitigation effect of inerter-based systems is investigated. The efficiency and robustness of the proposed method are also verified under near-fault and far-fault earthquakes. In essence, this research pioneers an approach in inerter-based design, bridging structural state nonlinearity, and potentially reshaping seismic control strategies to align with diverse structural states. •Design framework and formulae for inerter-incorporated nonlinear structure.•Structural state nonlinearity and ground intensities for inerter-based design.•Easy-to-use design curves given to efficiently determine parameters.•Effectiveness verified by structural acceleration and displacement evaluations.•Robustness of the method are discussed under near-fault and far-fault earthquakes.
AbstractList As structural safety emerges as a paramount concern and with the advancement in vibration control technology, a notable gap persists in accurately simulating structural state nonlinearity, especially within the field of inerter-based seismic control technology. Dealing with the need to upgrade the seismic performance of practical nonlinear structures, this study proposes a structural state nonlinearity-based design method for inerter-incorporated civil structures by incorporating the target seismic performance, structural nonlinearity level, and ground motion effects. By establishing mechanical models of inerter-based systems with straightforward parameters and a prototypical bilinear model for the primary structure, governing equations for inerter-incorporated structures were derived. Later, structural state nonlinearity-based design method for inerter-based systems, including optimization criteria and parameter distribution pattern, is elaborated. Simultaneously, this study also provides structural state nonlinearity-based design curves and modification formulae related to structural state nonlinearity and peak ground acceleration of earthquake. Validated using a 10-story multiple-degree-of-freedom (MDOF) structure subjected to earthquakes, the results highlight the effectiveness of the method, emphasizing its potential in controlling seismic responses of structures within the predetermined performance target. In addition, the absolute acceleration mitigation effect of inerter-based systems is investigated. The efficiency and robustness of the proposed method are also verified under near-fault and far-fault earthquakes. In essence, this research pioneers an approach in inerter-based design, bridging structural state nonlinearity, and potentially reshaping seismic control strategies to align with diverse structural states. •Design framework and formulae for inerter-incorporated nonlinear structure.•Structural state nonlinearity and ground intensities for inerter-based design.•Easy-to-use design curves given to efficiently determine parameters.•Effectiveness verified by structural acceleration and displacement evaluations.•Robustness of the method are discussed under near-fault and far-fault earthquakes.
ArticleNumber 108946
Author Zhao, Zhipeng
Wu, Minjun
Zhang, Ruifu
Tang, Yuanchen
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Snippet As structural safety emerges as a paramount concern and with the advancement in vibration control technology, a notable gap persists in accurately simulating...
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StartPage 108946
SubjectTerms Design formulae
Inerter
Performance-based design
Structural state nonlinearity
Title Structural state nonlinearity-based design and modification formulae of inerter-based systems
URI https://dx.doi.org/10.1016/j.soildyn.2024.108946
Volume 187
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