Seismic response characteristics of multi-story subway station through shaking table test

Chen, Zhiyi; Huang, Pengfei; Chen, Wei

doi:10.1177/1369433221993296

Cited by 12 publications

(4 citation statements)

References 22 publications

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“…Other studies have focused on the analysis of structural internal force (Chen and Liu, 2018, Lei and Yong, 2020, Miao et al, 2020, Wang et al, 2021, Xu et al, 2020). Tang et al, (2020) conducted a shaking table test and found that the components of the bottom layer of a deep underground subway station construction, particularly the middle column, experienced cumulative damage, and other studies reported similar results (Chen et al, 2020, 2021, Miao et al, 2020). Seismic damage to underground structures in soft soil sites may be greater than that in liquefied sand sites (Chen et al, 2020).…”

Section: Introductionmentioning

confidence: 70%

Analysis of the seismic performance of a large underground station structure in complex stratum considering the influence of axial force

Bao,

Liu,

Shen

et al. 2023

Advances in Structural Engineering

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The large underground structure in saturated stratum is vulnerable to float during an earthquake. This results in a plethora of problems, such as uneven settlement, large internal force and structure damage. In this study, the seismic behavior of a three-story, two-span subway station in complex saturated stratum was investigated through water-soil fully coupled 3D finite element method. In the analysis, the nonlinear soil behavior was described by a cyclic mobility model and the structure was calculated using a nonlinear constitutive model which can consider the influence of axial force on its bending moment. Joints elements were used to model the contact surface between soil and structure. The development of the soil displacement and internal force of the station structure at different times during a huge earthquake was examined. The bearing capacity of the station structure members was analyzed. The results indicated that the vertical displacement was spatially distributed. The larger additional seismic stresses appeared in the bottom slab and side wall. Failed elements were observed in both the walls and slabs, and the walls were more easily damaged than the slab. The results provide useful reference for the large underground structure seismic design in the construction of urban underground space.

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Section: Introductionmentioning

confidence: 70%

Analysis of the seismic performance of a large underground station structure in complex stratum considering the influence of axial force

Bao,

Liu,

Shen

et al. 2023

Advances in Structural Engineering

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“…Ma Chao et al [10] analyzed the influence of soil mechanic parameters on the seismic performance of underground structures using numerical simulation. Chen Zhiyi et al [11] conducted vibration table tests on multi-layer subway stations to study their seismic response, finding that in addition to horizontal shear deformation, rotational vibration also occurs in subway stations. Bao Xiaohua et al [12] conducted numerical simulation studies on the interaction of multiple underground structures and found that pile foundations and upper structures have a significant impact on column shear forces in station structures.…”

Section: Introductionmentioning

confidence: 99%

Shaking Table Tests on the Seismic Response of Symmetrically Integrated Underground Stations

Ming,

Tao,

Wang

2024

Symmetry

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This paper focuses on the seismic response of symmetrical underground subway stations to seismic waves with varying frequencies and peak ground accelerations (PGAs), essential in light of growing urban underground transit systems. A 1/40 scale station model was subjected to seismic simulations using waves from the Wenchuan and Tangshan earthquakes and an artificial wave spanning 0.1 g to 0.5 g PGAs. Shaking table tests revealed that seismic impacts divide at PGA = 0.3 g; high-frequency waves affect structures more below this threshold, while low-frequency waves have more impact above it. The columns on the third basement level responded more to seismic activity, particularly at their base. The study recommends prioritizing the seismic design of these columns during station construction, especially in earthquake-prone zones. Understanding the dynamic effects of different frequencies and amplitudes is crucial for selecting and reinforcing materials and structural designs to enhance seismic resistance.

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“…The results showed that the inter-story displacement angle of the subway station structure using elastic sliding bearings was significantly larger than that of the structure using fixed connections. Chen et al [18] revealed the relationship between dynamic earth pressure, rotational vibration and lateral deformation, which provides a reference for earthquake-induced soil-substructure interaction and seismic response characterization of multi-story subway stations. Qiu et al [19] presented the structural dynamic response law of a large-span underground structure under seismic action, produced by numerical analysis of a three-dimensional large underground structure, and they discussed the effect of the structural span on the response, and analyzed the contribution of the structural inertial response and soil deformation to the dynamic response of the model of the soil-structure interaction system.…”

Section: Introductionmentioning

confidence: 99%

Seismic Response and Damage Analysis of Large Underground Frame Structures without Overburden

Ding,

Zhao,

Shen

2024

Applied Sciences

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With the development of the Chinese economy and society, the height and density of urban buildings are increasing, and large underground transportation hubs have been constructed in many places to alleviate the pressure of transportation. Commercial buildings are usually developed above the large underground transportation hubs, so the underground structures may have very shallow depths or no soil cover. The seismic response and damage mechanisms of such underground structures still need to be studied. In this paper, an example of a project in China is taken as an object to analyze the seismic response and damage mechanism of the structure after simplification. The spatial distribution of deformations and internal forces of such structures and the location of the maximum internal forces are obtained, and the effect of the frequency of seismic motions on the structural response is obtained. Finally, an elastoplastic analysis of such structures is carried out to assess the damage location and the damage evolution process.

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Seismic response characteristics of multi-story subway station through shaking table test

Cited by 12 publications

References 22 publications

Analysis of the seismic performance of a large underground station structure in complex stratum considering the influence of axial force

Analysis of the seismic performance of a large underground station structure in complex stratum considering the influence of axial force

Shaking Table Tests on the Seismic Response of Symmetrically Integrated Underground Stations

Seismic Response and Damage Analysis of Large Underground Frame Structures without Overburden

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