Wenjun An scite author profile

Wenjun An

5Publications

24Citation Statements Received

104Citation Statements Given

How they've been cited

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104

Affiliations

Jiangxi University of Technology, Nanchang University, Yan'an University

Publications

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Influence of Bearing on Pier Failure Considering the Separation Condition under Near-Fault Earthquake

Song

2021

Symmetry

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To study the influence of the near-fault vertical earthquake, the beam-spring-damper-pier model is used to simulate the double-span continuous beam bridge. The transient wave function expansion method and the indirect mode function method are used to calculate the seismic response of the bridge. The theoretical solutions of the contact force and displacement response of the bridge under vertical earthquake excitation near-fault are derived. By using piers with three different heights, the influence of vertical separation on pier-bending failure is analyzed reasonably. The results show that under the near-fault earthquake action, the split has a certain influence on the pier failure. Moreover, the stiffness and damping of the bearing have an influence on the pier failure, and the change of the maximum pier height has different effects. Therefore, for bridges of different sizes, it is of great significance to select the appropriate stiffness and damping bearings to reduce pier failure.

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Protective effects of naringenin in cardiorenal syndrome

Liu

Gao

2016

Journal of Surgical Research

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Near-Fault Seismic Response Analysis of Bridges Considering Girder Impact and Pier Size

Song

Chen³

2021

Mathematics

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Given the influence of near-fault vertical seismic action, we established a girder-spring-damping-rod model of a double-span continuous girder bridge and used the transient wave function expansion method and indirect modal function method to calculate the seismic response of the bridge. We deduced the theoretical solution for the vertical and longitudinal contact force and displacement response of the bridge structure under the action of the near-fault vertical seismic excitation, and we analyzed the influence of the vertical separation of the bridge on the bending failure of the pier. Our results show that under the action of a near-fault vertical earthquake, pier-girder separation will significantly alter the bridge’s longitudinal displacement response, and that neglecting this separation may lead to the underestimation of the pier’s bending damage. Calculations of the bending moment at the bottom of the pier under different pier heights and cross-sectional diameters showed that the separation of the pier and the girder increases the bending moment at the pier’s base. Therefore, the reasonable design of the pier size and tensile support bearing in near-fault areas may help to reduce longitudinal damage to bridges.

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Theoretical Study on Dynamic Stability of High Bridge Piers Under Near-Fault Earthquake

Zhou

Kang

et al. 2023

Preprint

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Select a double span box girder bridge as the analysis model, the vibration control differential equation of ultra-high pier is established, solved by the Runge-Kutta method with variable step length, combined with B-R motion criterion, the dynamic response of ultra-high pier induced by vertical seismic excitation is calculated, and the instability mechanism is studied. Theoretical analysis shows that for high piers, ignoring the bidirectional coupling effect will underestimate the dynamic response of piers. The vertical seismic excitation results in the increase of the axial pressure of bridge pier, which will increase the horizontal deformation of pier. The separation of the main beam and bridge pier will change the extreme deformation value of the bridge pier and increase the risk of pier instability. It has important guiding significance for the theoretical analysis and engineering practice of dynamic instability of ultra-high pier.

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Failure Mode Analysis of Bridge Pier Due to Eccentric Impact Based on Separation of Pier and Beam

An¹,

Zhang²,

Kang³

et al. 2023

Sustainability

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By considering the near-field vertical seismic spectrum and calculating the change in vertical contact force between the main beam and the pier, the possible vertical separation contact condition of a bridge is deduced. By calculating the extreme value of the pier–beam vertical contact force and the longitudinal deformation of the pier under the structural separation, the influence of the separation on the failure of the pier is determined. Separation increases the risk of pier failure under compression, bending, and shear, and different separation times lead to different longitudinal responses from the pier, and the first failure mode is different. Therefore, it is of great significance to reasonably design bridges near faults.

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Wenjun An

Influence of Bearing on Pier Failure Considering the Separation Condition under Near-Fault Earthquake

Protective effects of naringenin in cardiorenal syndrome

Near-Fault Seismic Response Analysis of Bridges Considering Girder Impact and Pier Size

Theoretical Study on Dynamic Stability of High Bridge Piers Under Near-Fault Earthquake

Failure Mode Analysis of Bridge Pier Due to Eccentric Impact Based on Separation of Pier and Beam

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