Seismic structural and non-structural performance evaluation of highly damped self-centering and conventional systems
Seismic structural and non-structural performance evaluation of highly damped self-centering and conventional systems
This paper evaluates the seismic structural and non-structural performance of self-centering and conventional structural systems combined with supplemental viscous dampers. For this purpose, a parametric study on the seismic response of highly damped single-degree-of-freedom systems with self-centering flag-shaped or bilinear elastoplastic hysteresis is conducted. Statistical response results are used to evaluate and quantify the effects of supplemental viscous damping, strength ratio and period of vibration on seismic peak displacements, residual displacements and peak total accelerations. Among other findings, it is shown that decreasing the strength of nonlinear systems effectively decreases total accelerations, while added damping increases total accelerations and generally decreases residual displacements. Interestingly, this work shows that in some instances added damping may result in increased residual displacements of bilinear elastoplastic systems. Simple design cases demonstrate how these findings can be considered when designing highly damped structures to reduce structural and non-structural damage.
2248-2258
Karavasilis, T.L.
15850eb0-6af4-4b6e-bab4-d5bde281b769
Seo, C-Y.
1fb058b5-ec02-4bf7-bb71-4d0bf03fe84c
August 2011
Karavasilis, T.L.
15850eb0-6af4-4b6e-bab4-d5bde281b769
Seo, C-Y.
1fb058b5-ec02-4bf7-bb71-4d0bf03fe84c
Karavasilis, T.L. and Seo, C-Y.
(2011)
Seismic structural and non-structural performance evaluation of highly damped self-centering and conventional systems.
Engineering Structures, 33 (8), .
(doi:10.1016/j.engstruct.2011.04.001).
Abstract
This paper evaluates the seismic structural and non-structural performance of self-centering and conventional structural systems combined with supplemental viscous dampers. For this purpose, a parametric study on the seismic response of highly damped single-degree-of-freedom systems with self-centering flag-shaped or bilinear elastoplastic hysteresis is conducted. Statistical response results are used to evaluate and quantify the effects of supplemental viscous damping, strength ratio and period of vibration on seismic peak displacements, residual displacements and peak total accelerations. Among other findings, it is shown that decreasing the strength of nonlinear systems effectively decreases total accelerations, while added damping increases total accelerations and generally decreases residual displacements. Interestingly, this work shows that in some instances added damping may result in increased residual displacements of bilinear elastoplastic systems. Simple design cases demonstrate how these findings can be considered when designing highly damped structures to reduce structural and non-structural damage.
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Accepted/In Press date: 1 April 2011
e-pub ahead of print date: 7 May 2011
Published date: August 2011
Organisations:
Infrastructure Group
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Local EPrints ID: 401619
URI: http://eprints.soton.ac.uk/id/eprint/401619
ISSN: 0141-0296
PURE UUID: b2413771-a45d-4da1-a68c-7978b6d4ed34
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Date deposited: 20 Oct 2016 15:33
Last modified: 15 Mar 2024 12:47
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Author:
T.L. Karavasilis
Author:
C-Y. Seo
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