Seismic impact between adjacent torsionally coupled buildings

The problem of seismic impact between torsionally coupled multi story moment frame buildings is investigated in this paper. Five pairs of adjacent structures spaced at various separation distances are considered. The buildings are 4–10 stories in height. Although a common plan being symmetric with r...

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Published in:Soil dynamics and earthquake engineering (1984) 2019-02, Vol.117, p.81-95
Main Authors: Farahani, D., Behnamfar, F., Sayyadpour, H., Ghandil, M.
Format: Article
Language:English
Subjects:
Aseismic buildings
Building codes
Buildings
Clear distance
Consistent earthquakes
Earthquakes
Eccentricity
Frame structures
Nonlinear dynamic
Nonlinear response
Plastic properties
Plasticity
Pounding
Seismic activity
Seismic design
Seismic response
Stiffness
Three dimensional models
Torsion
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cited_by cdi_FETCH-LOGICAL-c337t-74c653c67001ddae95f0b12d9e33965839f311de9e6b306c972a1a16769724803
cites cdi_FETCH-LOGICAL-c337t-74c653c67001ddae95f0b12d9e33965839f311de9e6b306c972a1a16769724803
container_end_page 95
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container_start_page 81
container_title Soil dynamics and earthquake engineering (1984)
container_volume 117
creator Farahani, D.
Behnamfar, F.
Sayyadpour, H.
Ghandil, M.
description The problem of seismic impact between torsionally coupled multi story moment frame buildings is investigated in this paper. Five pairs of adjacent structures spaced at various separation distances are considered. The buildings are 4–10 stories in height. Although a common plan being symmetric with regard to lateral stiffness is considered, a mass eccentricity variable from zero to 30% of the plan dimension is assumed. By three-dimensional modeling of the nonlinear torsional buildings having common story elevations, the seismic pounding happen anywhere along the adjacent buildings edges. Effect of impact and torsional eccentricity are studied by comparison of nonlinear dynamic responses of buildings at different clear distances under 11 consistent earthquakes. The responses include pounding forces at stories, story drifts, story shears and plastic hinge rotations. It is shown that how pounding incidents increase for larger eccentricities and how pounding occurs even at the clear distances prescribed by seismic design codes. The combined effect of torsional eccentricity and pounding results in amplifying the nonlinear response of structure especially for the peripheral frames. •Shear in upper stories increases due to pounding mostly for smaller eccentricities.•Torsional coupling of adjacent buildings makes them to impact at the corners.•Impact at the corners acts like an amplification factor for the torsional response.•Story torsion and pounding make peripheral frames to be the most critical ones.•Perimeter frames under torsion need special attention even at code clear distances.
doi_str_mv 10.1016/j.soildyn.2018.11.015
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subjects Aseismic buildings
Building codes
Buildings
Clear distance
Consistent earthquakes
Earthquakes
Eccentricity
Frame structures
Nonlinear dynamic
Nonlinear response
Plastic properties
Plasticity
Pounding
Seismic activity
Seismic design
Seismic response
Stiffness
Three dimensional models
Torsion
title Seismic impact between adjacent torsionally coupled buildings
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