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A platform for research: civil engineering, architecture and urbanism
Uni-axial shaking table tests and validations of a seismic isolation system made of spring tube braces
Abstract A new seismic isolation system based on spring tube braces was studied. An isolation story, which consisted of pin ended steel columns and spring tube braces, is arranged at the foundation level and/or any intermediate storey of the building. A series of experimental and analytical studies were carried out to evaluate the capability of the proposed seismic isolation system. Three storey ¼ scale 3D steel frames, with the proposed seismic isolation storey, were tested on the shake table using the real earthquake records. The transmitted accelerations from ground to floor levels were largely diminished by means of the isolation system, contrary to the fixed based specimen. Results showed no stability or self-centring problems for the proposed isolation system. The energy balance equations and dynamic force-displacement relations indicated that the equivalent damping arising from the seismic isolation storey was roughly 20%. This relatively high damping property, which can be attributed to the friction on the pinned connections of beam to columns as well as the period elongation, is effective for diminishing seismic response.
Highlights A novel low-cost seismic isolation system is proposed for low-rise buildings. The proposed seismic isolation system has high damping capacity which is related with the friction on the pinned connections. It has no self-centring problem. The proposed seismic isolation system has its own fail-safe mechanism. The seismic isolation story can also be used for regular purposes.
Uni-axial shaking table tests and validations of a seismic isolation system made of spring tube braces
Abstract A new seismic isolation system based on spring tube braces was studied. An isolation story, which consisted of pin ended steel columns and spring tube braces, is arranged at the foundation level and/or any intermediate storey of the building. A series of experimental and analytical studies were carried out to evaluate the capability of the proposed seismic isolation system. Three storey ¼ scale 3D steel frames, with the proposed seismic isolation storey, were tested on the shake table using the real earthquake records. The transmitted accelerations from ground to floor levels were largely diminished by means of the isolation system, contrary to the fixed based specimen. Results showed no stability or self-centring problems for the proposed isolation system. The energy balance equations and dynamic force-displacement relations indicated that the equivalent damping arising from the seismic isolation storey was roughly 20%. This relatively high damping property, which can be attributed to the friction on the pinned connections of beam to columns as well as the period elongation, is effective for diminishing seismic response.
Highlights A novel low-cost seismic isolation system is proposed for low-rise buildings. The proposed seismic isolation system has high damping capacity which is related with the friction on the pinned connections. It has no self-centring problem. The proposed seismic isolation system has its own fail-safe mechanism. The seismic isolation story can also be used for regular purposes.
Uni-axial shaking table tests and validations of a seismic isolation system made of spring tube braces
Karayel, V. (author) / Yuksel, E. (author) / Gokce, T. (author) / Sahin, F. (author)
Soil Dynamics and Earthquake Engineering ; 118 ; 35-46
2018-12-05
12 pages
Article (Journal)
Electronic Resource
English
| British Library Online Contents | 2019
Spring tube braces for seismic isolation of buildings
| Online Contents | 2017