Three-Dimensional Base Isolation Using Vertical Negative Stiffness Devices
A three-dimensional (3-D) base isolation system to control both the horizontal and vertical components of ground motion is presented in this paper. The system is adopting a negative stiffness device (NSD) that can be considered as an adaptive passive protection system, which can apparently change th...
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| Published in | Journal of earthquake engineering : JEE Vol. 24; no. 12; pp. 2004 - 2032 |
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| Main Authors | , , |
| Format | Journal Article |
| Language | English |
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Taylor & Francis
01.12.2020
Taylor & Francis Ltd |
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| Abstract | A three-dimensional (3-D) base isolation system to control both the horizontal and vertical components of ground motion is presented in this paper. The system is adopting a negative stiffness device (NSD) that can be considered as an adaptive passive protection system, which can apparently change the stiffness of the structure. This work is focused on studying through numerical simulations the mitigation performance of the NSD against strong earthquakes in the vertical direction. The base isolation arrangement consists of elastomeric bearings acting both in the horizontal and vertical direction and NSDs acting only in the vertical direction. So, a 3-D base isolation is achieved, where it is assumed that the NSDs affect the vertical stiffness of the system only. Numerical analyses show that the presence of NSDs reduces the vertical acceleration in the structure. Nevertheless, accordingly with the passive control theory, the relative displacements increase. Therefore, it seems advisable a supplemental damping to mitigate this effect. Thanks to the presence of rubber isolators, it is possible to employ their inherent damping without introducing specific dampers in the vertical direction. |
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| AbstractList | A three-dimensional (3-D) base isolation system to control both the horizontal and vertical components of ground motion is presented in this paper. The system is adopting a negative stiffness device (NSD) that can be considered as an adaptive passive protection system, which can apparently change the stiffness of the structure. This work is focused on studying through numerical simulations the mitigation performance of the NSD against strong earthquakes in the vertical direction. The base isolation arrangement consists of elastomeric bearings acting both in the horizontal and vertical direction and NSDs acting only in the vertical direction. So, a 3-D base isolation is achieved, where it is assumed that the NSDs affect the vertical stiffness of the system only. Numerical analyses show that the presence of NSDs reduces the vertical acceleration in the structure. Nevertheless, accordingly with the passive control theory, the relative displacements increase. Therefore, it seems advisable a supplemental damping to mitigate this effect. Thanks to the presence of rubber isolators, it is possible to employ their inherent damping without introducing specific dampers in the vertical direction. A three-dimensional (3-D) base isolation system to control both the horizontal and vertical components of ground motion is presented in this paper. The system is adopting a negative stiffness device (NSD) that can be considered as an adaptive passive protection system, which can apparently change the stiffness of the structure. This work is focused on studying through numerical simulations the mitigation performance of the NSD against strong earthquakes in the vertical direction. The base isolation arrangement consists of elastomeric bearings acting both in the horizontal and vertical direction and NSDs acting only in the vertical direction. So, a 3-D base isolation is achieved, where it is assumed that the NSDs affect the vertical stiffness of the system only. Numerical analyses show that the presence of NSDs reduces the vertical acceleration in the structure. Nevertheless, accordingly with the passive control theory, the relative displacements increase. Therefore, it seems advisable a supplemental damping to mitigate this effect. Thanks to the presence of rubber isolators, it is possible to employ their inherent damping without introducing specific dampers in the vertical direction. |
| Author | Warn, Gordon Domaneschi, Marco Cimellaro, Gian Paolo |
| Author_xml | – sequence: 1 givenname: Gian Paolo orcidid: 0000-0001-6474-3493 surname: Cimellaro fullname: Cimellaro, Gian Paolo email: gianpaolo.cimellaro@polito.it organization: Building And Geotechnical Engineering (DISEG) – sequence: 2 givenname: Marco surname: Domaneschi fullname: Domaneschi, Marco organization: Building And Geotechnical Engineering (DISEG) – sequence: 3 givenname: Gordon surname: Warn fullname: Warn, Gordon organization: The Pennsylvania State University |
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| SubjectTerms | Control theory Damping Direction Earthquake dampers Earthquakes Elastomers Ground motion Isolators Mitigation near Field Ground Motion Negative Stiffness Numerical analysis Numerical simulations Passive Control Seismic activity Stiffness Three-Dimensional Base Isolation Vertical |
| Title | Three-Dimensional Base Isolation Using Vertical Negative Stiffness Devices |
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