Dynamic Structure-Soil-Structure Interaction in unsymmetrical plan buildings due to seismic excitation

This paper explores the influence of Structure-Soil-Structure Interaction (SSSI) between a pair of buildings, one of which is unsymmetrical in plan and hence subject to seismically induced coupled torsion/sway motions. A reduced-order parametric model of this system is proposed and validated using f...

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Published inSoil dynamics and earthquake engineering (1984) Vol. 127; p. 105817
Main Authors Vicencio, Felipe, Alexander, Nicholas A.
Format Journal Article
LanguageEnglish
Published Barking Elsevier Ltd 01.12.2019
Elsevier BV
Subjects
Acceleration
Aseismic buildings
Buildings
Finite element method
Ground motion
Reduced order models
Seismic engineering
Seismic response
Soil dynamics
Soil-structure interaction
Soils
Structure-Soil-Structure Interaction
Time history seismic analysis
Torsion
Unsymmetrical plan buildings
Unsymmetrical plan buildings
Time history seismic analysis
Structure-Soil-Structure Interaction
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Abstract This paper explores the influence of Structure-Soil-Structure Interaction (SSSI) between a pair of buildings, one of which is unsymmetrical in plan and hence subject to seismically induced coupled torsion/sway motions. A reduced-order parametric model of this system is proposed and validated using finite element analysis. A database of 15 strong ground motion records are employed. Over 3 million system/ground motion cases are analysed in this extensive parametric study. Results suggest that the SSSI can significantly affect the displacement and acceleration response of the unsymmetrical plan structures. Building torsion has the effect of increasing the building responses for a broader parametric range over which SSSI effects are significant. Additionally, a taller torsionally irregular building adjacent to a smaller building can in some parametric cases be adversely affected by SSSI. This finding contradicts results from previous studies, that were based on non-torsional, plan-regular, buildings, where the taller buildings are generally beneficially affected by the presence of smaller adjacent buildings. •The influence of SSSI can lead to significant changes in the response of the building, regardless of the earthquake event.•The SSSI effect has an important influence on the torsional mode in building 1 for a broad range of parameters.•A taller torsionally irregular building adjacent to a smaller building can be adversely affected by SSSI.
AbstractList This paper explores the influence of Structure-Soil-Structure Interaction (SSSI) between a pair of buildings, one of which is unsymmetrical in plan and hence subject to seismically induced coupled torsion/sway motions. A reduced-order parametric model of this system is proposed and validated using finite element analysis. A database of 15 strong ground motion records are employed. Over 3 million system/ground motion cases are analysed in this extensive parametric study. Results suggest that the SSSI can significantly affect the displacement and acceleration response of the unsymmetrical plan structures. Building torsion has the effect of increasing the building responses for a broader parametric range over which SSSI effects are significant. Additionally, a taller torsionally irregular building adjacent to a smaller building can in some parametric cases be adversely affected by SSSI. This finding contradicts results from previous studies, that were based on non-torsional, plan-regular, buildings, where the taller buildings are generally beneficially affected by the presence of smaller adjacent buildings.
This paper explores the influence of Structure-Soil-Structure Interaction (SSSI) between a pair of buildings, one of which is unsymmetrical in plan and hence subject to seismically induced coupled torsion/sway motions. A reduced-order parametric model of this system is proposed and validated using finite element analysis. A database of 15 strong ground motion records are employed. Over 3 million system/ground motion cases are analysed in this extensive parametric study. Results suggest that the SSSI can significantly affect the displacement and acceleration response of the unsymmetrical plan structures. Building torsion has the effect of increasing the building responses for a broader parametric range over which SSSI effects are significant. Additionally, a taller torsionally irregular building adjacent to a smaller building can in some parametric cases be adversely affected by SSSI. This finding contradicts results from previous studies, that were based on non-torsional, plan-regular, buildings, where the taller buildings are generally beneficially affected by the presence of smaller adjacent buildings. •The influence of SSSI can lead to significant changes in the response of the building, regardless of the earthquake event.•The SSSI effect has an important influence on the torsional mode in building 1 for a broad range of parameters.•A taller torsionally irregular building adjacent to a smaller building can be adversely affected by SSSI.
ArticleNumber 105817
Author Vicencio, Felipe
Alexander, Nicholas A.
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Keywords Unsymmetrical plan buildings
Time history seismic analysis
Structure-Soil-Structure Interaction
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Snippet This paper explores the influence of Structure-Soil-Structure Interaction (SSSI) between a pair of buildings, one of which is unsymmetrical in plan and hence...
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SubjectTerms Acceleration
Aseismic buildings
Buildings
Finite element method
Ground motion
Reduced order models
Seismic engineering
Seismic response
Soil dynamics
Soil-structure interaction
Soils
Structure-Soil-Structure Interaction
Time history seismic analysis
Torsion
Unsymmetrical plan buildings
Title Dynamic Structure-Soil-Structure Interaction in unsymmetrical plan buildings due to seismic excitation
URI https://dx.doi.org/10.1016/j.soildyn.2019.105817
https://www.proquest.com/docview/2312229898
Volume 127
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