Self-Centering Seismic Lateral Force Resisting Systems: High Performance Structures for the City of Tomorrow

ONLINE ONLY. Also to be published in special issue "Seismic-Resistant Building Design". "Structures designed in accordance with even the most modern buildings codes are expected to sustain damage during a severe earthquake; however; these structures are expected to protect the lives o...

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Bibliographic Details
Published in:Buildings (Basel) 2014-09, Vol.4 (3), p.520-548
Main Authors: Chancellor, Nathan, Eatherton, Matthew, Roke, David, Akbaş, Tuğçe
Format: Article
Language:English
Subjects:
braced frame
high-performance
moment frame
resilient
seismic
self-centering
shear wall
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Summary:ONLINE ONLY. Also to be published in special issue "Seismic-Resistant Building Design". "Structures designed in accordance with even the most modern buildings codes are expected to sustain damage during a severe earthquake; however; these structures are expected to protect the lives of the occupants. Damage to the structure can require expensive repairs; significant business downtime; and in some cases building demolition. If damage occurs to many structures within a city or region; the regional and national economy may be severely disrupted. To address these shortcomings with current seismic lateral force resisting systems and to work towards more resilient; sustainable cities; a new class of seismic lateral force resisting systems that sustains little or no damage under severe earthquakes has been developed. These new seismic lateral force resisting systems reduce or prevent structural damage to nonreplaceable structural elements by softening the structural response elastically through gap opening mechanisms. To dissipate seismic energy; friction elements or replaceable yielding energy dissipation elements are also included. Post-tensioning is often used as a part of these systems to return the structure to a plumb; upright position (self-center) after the earthquake has passed. This paper summarizes the state-of-the art for self-centering seismic lateral force resisting systems and outlines current research challenges for these systems."
ISSN:2075-5309
2075-5309
DOI:10.3390/buildings4030520