Influence of soil-structure interaction on pounding response of adjacent buildings due to near-source earthquakes

Chouw, Nawawi

doi:10.2208/journalam.5.543

Cited by 36 publications

(24 citation statements)

References 13 publications

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“…(2) The short duration and high magnitude of acceleration pulses are caused by pounding at 20th floor of building A. It is observed that higher frequency content of acceleration increases at 20th floor of building A from Figure 11b,d,f, which is consistent to the conclusion by Chouw [37]. (3) The acceleration response of PILE_P considering SSSI in pounding case, is greater than that of FIXED_P, which does not take SSSI into consideration in the pounding case.…”

Section: Acceleration Response Of Superstructuresupporting

confidence: 86%

Studies on Pounding Response Considering Structure-Soil-Structure Interaction under Seismic Loads

Liu

Lü

2017

Sustainability

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Pounding phenomena considering structure-soil-structure interaction (SSSI) under seismic loads are investigated in this paper. Based on a practical engineering project, this work presents a three-dimensional finite element numerical simulation method using ANSYS software. According to Chinese design code, the models of adjacent shear wall structures on Shanghai soft soil with the rigid foundation, box foundation and pile foundation are built respectively. In the simulation, the Davidenkov model of the soil skeleton curve is assumed for soil behavior, and the contact elements with Kelvin model are adopted to simulate pounding phenomena between adjacent structures. Finally, the dynamic responses of adjacent structures considering the pounding and SSSI effects are analyzed. The results show that pounding phenomena may occur, indicating that the seismic separation requirement for adjacent buildings of Chinese design code may not be enough to avoid pounding effect. Pounding and SSSI effects worsen the adjacent buildings' conditions because their acceleration and shear responses are amplified after pounding considering SSSI. These results are significant for studying the effect of pounding and SSSI phenomena on seismic responses of structures and national sustainable development, especially in earthquake prevention and disaster reduction.

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Section: Acceleration Response Of Superstructuresupporting

confidence: 86%

Studies on Pounding Response Considering Structure-Soil-Structure Interaction under Seismic Loads

Liu

Lü

2017

Sustainability

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“…The result coincided exactly with the one obtained using a step-bystep numerical integration procedure directly in the time domain [24]. To demonstrate the reliability of the procedure in estimating the relative response of structures with pounding the example presented in [9] is analysed using the present method and the program DRAIN-2DX [25].…”

Section: Validation Of the Nonlinear Analysissupporting

confidence: 53%

“…The procedure is repeated until no more pounding or separation takes place. The nonlinear procedure for analysing the soil-structure system in Laplace and time domain is explained in detail in [24]. It should be noted that this approach of pounding force modeling is believed more accurate than using an additional impact element consisting of spring and dashpot, since it considers the correct distribution of the whole mass and stiffness of the adjacent structures in the calculation of the structural responses with pounding whereas using an impact element considers only the relative girder displacement and the axial stiffness of one bridge girder.…”

Section: Non-linear Analysis In Laplace and Time Domainmentioning

confidence: 99%

Significance of SSI and nonuniform near-fault ground motions in bridge response I: Effect on response with conventional expansion joint

Chouw

Hao

2008

Engineering Structures

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This paper studies the influence of spatially varying near-source ground motions and soil-structure interaction (SSI) on the relative response of two bridge frames. The spatial ground motions are simulated according to a near-fault ground motion model with different wave apparent velocity and a coherency loss function. Numerical calculations of bridge structure responses including pounding and SSI effect to a number of simulated spatially varying ground motions are carried out. The study reveals that the assumption of uniform ground excitation and fixed base in the analysis and design might not provide a realistic estimation of the pounding responses of bridge frames. The consequence of adjusting bridge fundamental frequency ratio towards unity to minimize relative response and consequently girder pounding potential as recommended by current design regulations is also evaluated.

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“…Laplace transform method [Chouw, 2002;Chouw and Hao, 2008a] incorporates the influence of pounding in Laplace and time domains by formulating the nonlinear behavior in an increment way. Within every increment the system is assumed to behave linearly, and the transform approach is applied.…”

Section: Laplace Transform Methodsmentioning

confidence: 99%

“…This out-of-phase movement of adjoining bridge segments can result from many reasons, e.g. the differences in their dynamic characteristics, the nonuniform excitations at their supports and the interaction between the structure and the surrounding soil [Chouw andHao, 2005, 2008a]. There are many reasons that may result in the spatially varying ground motions such as the wave passage effect results from the different arrival times of waves at different locations, coherency loss effect owing to seismic waves scattering in the heterogeneous medium of the ground and site amplification effect due to different local soil properties [Der Kiureghian, 1996].…”

Section: Numerical Simulation Of Pounding Responsesmentioning

confidence: 99%

State-of-the-Art Review on Seismic Induced Pounding Response of Bridge Structures

Hao

Chouw

et al. 2013

J. Earthquake and Tsunami

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Seismic induced pounding damage to bridge structures was repeatedly observed in many previous major earthquakes. To avoid this adverse effect, extensive research efforts have been made by many researchers. This paper presents a state-of-the-art review in this field. It includes a brief review of the numerical modeling of bridge structures and impact models, numerical simulation of pounding responses between different components of bridge structures, experimental investigations, and pounding mitigation methods.

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Influence of soil-structure interaction on pounding response of adjacent buildings due to near-source earthquakes

Cited by 36 publications

References 13 publications

Studies on Pounding Response Considering Structure-Soil-Structure Interaction under Seismic Loads

Studies on Pounding Response Considering Structure-Soil-Structure Interaction under Seismic Loads

Significance of SSI and nonuniform near-fault ground motions in bridge response I: Effect on response with conventional expansion joint

State-of-the-Art Review on Seismic Induced Pounding Response of Bridge Structures

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