Experiments to study the effect of foundation rotation on the seismic building torsional, response of a reinforced concrete space frame

•An experimental study of a two levels-reinforced-concrete space frame was conducted.•The dynamic response of the flexible-foundation system was studied.•An analytical model with fixed foundation of the RC space frame was analyzed.•The torsional frequencies of both models (experimental and analytica...

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Bibliographic Details
Published in:Engineering structures 2013-11, Vol.56, p.1154-1163
Main Authors: De-la-Colina, Jaime, Valdés-González, Jesús, González-Pérez, Carlos Alberto
Format: Article
Language:English
Subjects:
Applied sciences
Building structure
Buildings
Buildings. Public works
Construction (buildings and works)
Dynamic tests
Dynamics
Earthwork. Foundations. Retaining walls
Exact sciences and technology
Experimental testing
Flexibility
Foundations
Frames
Geotechnics
Reinforced concrete
Reinforced concrete structure
Soil (material)
Soil–structure interaction
Space frames
Structure-soil interaction
Torsional response
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Summary:•An experimental study of a two levels-reinforced-concrete space frame was conducted.•The dynamic response of the flexible-foundation system was studied.•An analytical model with fixed foundation of the RC space frame was analyzed.•The torsional frequencies of both models (experimental and analytical) are studied.•Ignoring the foundation flexibility can lead to unexpected high torsional responses. Results of an experimental research conducted to study the effect of foundation rotation on a two-story reinforced-concrete space frame subjected to harmonic excitations are presented. The frame torsional response is analyzed in terms of the dynamic story torsional moments estimated from test results. Since the structural responses computed with and without soil–structure interaction may be different, an unanticipated high torsional response can be obtained when the flexibility of the foundation–soil system is neglected at the building design stage. In this study, which is limited to the linear-elastic behavior, emphasis is given to study the torsional response of a reinforced concrete frame when excitation frequencies are close to the modal frequency associated with the first torsional mode of the system (buildings+soil). Results suggest that building codes should include specific provisions to anticipate high torsional response of regular buildings located at soft soils.
ISSN:0141-0296
1873-7323
DOI:10.1016/j.engstruct.2013.06.005