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Experimental evaluation of the seismic performance of steel MRFs with compressed elastomer dampers using large-scale real-time hybrid simulation

Experimental evaluation of the seismic performance of steel MRFs with compressed elastomer dampers using large-scale real-time hybrid simulation
Experimental evaluation of the seismic performance of steel MRFs with compressed elastomer dampers using large-scale real-time hybrid simulation
Real-time hybrid simulation combines experimental testing and numerical simulation, and thus is a viable experimental technique for evaluating the effectiveness of supplemental damping devices for seismic hazard mitigation. This paper presents an experimental program based on the use of the real-time hybrid simulation method to verify the performance-based seismic design of a two story, four-bay steel moment resisting frame (MRF) equipped with compressed elastomer dampers. The laboratory specimens, referred to as experimental substructures, are two individual compressed elastomer dampers with the remainder of the building modeled as an analytical substructure. The proposed experimental technique enables an ensemble of ground motions to be applied to the building, resulting in various levels of damage, without the need to repair the experimental substructures, since the damage will be within the analytical substructure. Statistical experimental response results incorporating the ground motion variability show that a steel MRF with compressed elastomer dampers can be designed to perform better than conventional steel special moment resisting frames (SMRFs), even when the MRF with dampers is significantly lighter in weight than the conventional MRF.
0141-0296
1859-1869
Karavasilis, T.L.
15850eb0-6af4-4b6e-bab4-d5bde281b769
Ricles, J.M.
04ac4367-e263-4a40-b4c4-5ad106b1a77a
Sause, R.
ac7be883-f8d1-43e2-b8bd-dce430a4d3c3
Chen, C.
ebea955a-5c35-4ccb-9431-9aafaa9fda78
Karavasilis, T.L.
15850eb0-6af4-4b6e-bab4-d5bde281b769
Ricles, J.M.
04ac4367-e263-4a40-b4c4-5ad106b1a77a
Sause, R.
ac7be883-f8d1-43e2-b8bd-dce430a4d3c3
Chen, C.
ebea955a-5c35-4ccb-9431-9aafaa9fda78

Karavasilis, T.L., Ricles, J.M., Sause, R. and Chen, C. (2011) Experimental evaluation of the seismic performance of steel MRFs with compressed elastomer dampers using large-scale real-time hybrid simulation. Engineering Structures, 33 (6), 1859-1869. (doi:10.1016/j.engstruct.2011.01.032).

Record type: Article

Abstract

Real-time hybrid simulation combines experimental testing and numerical simulation, and thus is a viable experimental technique for evaluating the effectiveness of supplemental damping devices for seismic hazard mitigation. This paper presents an experimental program based on the use of the real-time hybrid simulation method to verify the performance-based seismic design of a two story, four-bay steel moment resisting frame (MRF) equipped with compressed elastomer dampers. The laboratory specimens, referred to as experimental substructures, are two individual compressed elastomer dampers with the remainder of the building modeled as an analytical substructure. The proposed experimental technique enables an ensemble of ground motions to be applied to the building, resulting in various levels of damage, without the need to repair the experimental substructures, since the damage will be within the analytical substructure. Statistical experimental response results incorporating the ground motion variability show that a steel MRF with compressed elastomer dampers can be designed to perform better than conventional steel special moment resisting frames (SMRFs), even when the MRF with dampers is significantly lighter in weight than the conventional MRF.

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More information

Accepted/In Press date: 30 January 2011
e-pub ahead of print date: 29 March 2011
Published date: June 2011
Organisations: Infrastructure Group

Identifiers

Local EPrints ID: 401621
URI: http://eprints.soton.ac.uk/id/eprint/401621
DOI: doi:10.1016/j.engstruct.2011.01.032
ISSN: 0141-0296
PURE UUID: 8f9d801b-5093-4881-9196-b02b2b7a53fc
ORCID for T.L. Karavasilis: ORCID iD orcid.org/0000-0003-2553-5389

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Date deposited: 20 Oct 2016 15:37
Last modified: 15 Mar 2024 02:51

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Contributors

Author: T.L. Karavasilis ORCID iD
Author: J.M. Ricles
Author: R. Sause
Author: C. Chen

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