Comparison on the Horizontal Behaviors of Lattice-Shaped Diaphragm Wall and Pile Group under Static and Seismic Loads
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TLDR
In this paper, a numerical study of the comparison of the static and seismic responses of LSDW and pile group under similar material quantity in soft soil was conducted. And it was found that the horizontal bearing capacity of LSDw is considerably larger than that of pile group, while pile group clearly shows a local bending deformation pattern during the static loading process.Abstract:
Lattice-shaped diaphragm wall (hereafter referring to LSDW) is a new type of bridge foundation, and the relevant investigation on its horizontal behaviors is scant. This paper is devoted to the numerical study of the comparison on the static and seismic responses of LSDW and pile group under similar material quantity in soft soil. It can be found that the horizontal bearing capacity of LSDW is considerably larger than that of pile group, and the deformation pattern of LSDW basically appears to be an overall toppling while pile group clearly shows a local bending deformation pattern during the static loading process. The acceleration response and the acceleration amplification effects of LSDW are slightly greater than that of pile group due to the existing of soil core and the difference on the ability of energy dissipation. The horizontal displacement response of pile group is close to that of LSDW at first and becomes stronger than that of LSDW due to the generation of plastic soil deformation near the pile-soil interface at last. The pile body may be broken in larger potential than LSDW especially when its horizontal displacement is notable. Compared with pile group, LSDW can be a good option for being served as a lateral bearing or an earthquake-proof foundation in soft soil.read more
Citations
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Analysis of Vertical Load Transfer Mechanism of Assembled Lattice Diaphragm Wall in Collapsible Loess Area
TL;DR: In this paper, the authors investigated the load transfer law of a wall-soil system under a vertical load, established the vertical bearing model of a lattice diaphragm wall, and analyzed the capacity of an assembled latticed diaphrasm wall (ALDW) in a loess area.
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Seismic Behavior of Rectangular Closed Diaphragm Walls in Gently Sloping Liquefiable Deposit: Dynamic Centrifuge Testing
TL;DR: In this paper, Rectangular closed diaphragm walls (RCDWs) are used as bridge foundations because of their advantageous properties such as high stiffness and construction efficiency, low cost, and low complexity.
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Mechanism of liquefaction mitigation by rectangular closed diaphragm walls in sloping liquefiable deposits
Jian-lei Zhang,Qian-gong Cheng,Qian-gong Cheng,Yan Li,En-ming Zhang,Wang Yufeng,Jiu-jiang Wu,Shang-ying Xie +7 more
TL;DR: In this article, a 3D nonlinear solid-fluid fully coupled effective stress numerical model was proposed to study the liquefaction mitigation mechanisms of RCDW, and the validated model was applied to investigate the effectiveness and mechanism of Rectangular Closed Diaphragm Walls (RCDW) mitigation under earthquake motions with different peak acceleration.
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Dynamic response of axially loaded end-bearing rectangular closed diaphragm walls
TL;DR: In this article, an approximate analytical solution for the vertical dynamic impedance and shaft resistance of rectangular closed diaphragm walls (RCDWs) embedded in a homogeneous soil medium and resting on rock base is presented.
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Load-Bearing Performance and Safety Assessment of Grid Pile Foundation
TL;DR: In this article , a new foundation form called grid pile foundation (GPF) was proposed to improve the sustainability and reliability of foundations, and the finite element software ABAQUS was used to investigate the mechanical properties and dimensional effects of the GPF.
References
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