Drift and ductility estimates in regular steel MRF subjected to ordinary ground motions: a design-oriented approach
Drift and ductility estimates in regular steel MRF subjected to ordinary ground motions: a design-oriented approach
A simple procedure to estimate drift and ductility demands of regular steel frame buildings subjected to ordinary (i.e., without near fault effects) ground motions is described. Given the strength reduction (or behavior) factor, the procedure provides reliable estimates of the maximum roof displacement, the maximum interstorey drift ratio and the maximum rotation ductility along the height of the structure. The strength reduction factor refers to the point of the development of the first plastic hinge in the building and thus, pushover analysis and estimation of the overstrength factor are not required. This important feature enables both the rapid seismic assessment of existing structures and the direct deformation-controlled seismic design of new ones. The derivation of the proposed relations is based on regression analysis of the results of thousands of nonlinear time history analyses of steel frames. A comparison of the proposed method with the procedures adopted in current seismic design codes reveals the efficiency of the former.
31-151
Karavasilis, T.L.
15850eb0-6af4-4b6e-bab4-d5bde281b769
Bazeos, N.
a7030733-6d22-4723-860c-71f0e0d4a53c
Beskos, D.E.
9fa0ddd7-599f-46b3-953b-0b1950992c87
May 2008
Karavasilis, T.L.
15850eb0-6af4-4b6e-bab4-d5bde281b769
Bazeos, N.
a7030733-6d22-4723-860c-71f0e0d4a53c
Beskos, D.E.
9fa0ddd7-599f-46b3-953b-0b1950992c87
Karavasilis, T.L., Bazeos, N. and Beskos, D.E.
(2008)
Drift and ductility estimates in regular steel MRF subjected to ordinary ground motions: a design-oriented approach.
Earthquake Spectra, 24 (2), .
(doi:10.1193/1.2923919).
Abstract
A simple procedure to estimate drift and ductility demands of regular steel frame buildings subjected to ordinary (i.e., without near fault effects) ground motions is described. Given the strength reduction (or behavior) factor, the procedure provides reliable estimates of the maximum roof displacement, the maximum interstorey drift ratio and the maximum rotation ductility along the height of the structure. The strength reduction factor refers to the point of the development of the first plastic hinge in the building and thus, pushover analysis and estimation of the overstrength factor are not required. This important feature enables both the rapid seismic assessment of existing structures and the direct deformation-controlled seismic design of new ones. The derivation of the proposed relations is based on regression analysis of the results of thousands of nonlinear time history analyses of steel frames. A comparison of the proposed method with the procedures adopted in current seismic design codes reveals the efficiency of the former.
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Accepted/In Press date: 5 November 2007
Published date: May 2008
Organisations:
Infrastructure Group
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Local EPrints ID: 401709
URI: http://eprints.soton.ac.uk/id/eprint/401709
ISSN: 8755-2930
PURE UUID: f63b5956-73bd-4632-985e-42863f750523
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Date deposited: 21 Oct 2016 15:48
Last modified: 15 Mar 2024 02:53
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Author:
T.L. Karavasilis
Author:
N. Bazeos
Author:
D.E. Beskos
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