Abstract
Reasonable depth of pile embedment is one of the key factors for the success of deep foundation pit projects. This paper has taken a deep foundation pit project in a granite residual soil area in Shenzhen as an example and used physical model tests to study the deformation law of the piles and the surrounding soil during the excavation of the deep foundation pit, revealing the variation law of earth pressure in time and space in the pit and then verified it by numerical simulation. The influence of the embedded depth of the pile on the deformation and earth pressure of the deep foundation pit is then explicitly discussed. The study shows that the embedded depth has a significant effect on the deformation and earth pressure distribution of the foundation pit. The earth pressure in front of the pile tends to approach the passive earth pressure as the embedment depth decreases, while the earth pressure behind the pile is in between the Rankine active earth pressure and the static soil pressure; the settlement value and settlement range of the surrounding soil are doubled. The pile displacement increases as the maximum displacement point rises. The maximum displacement of the pile body was used as the basis for determining the instability of the foundation pit. The optimum embedded depth is obtained when the depth of embedment of the pile is 0.22 H (H is the excavation depth of the foundation pit).
Highlights
There are several types of support systems for deep foundation pits, among which the pile-anchor support structure system is a type of support widely used in engineering
The embedded depth of the soldier piles is an important parameter in the pile-anchor supporting structure system of deep foundation pits
Lei and Zheng [3] have taken a long strip foundation pit supported by a cantilever row of piles as an example, used model tests and finite difference methods to explore the law of load transfer caused by local overexcavation, and initially revealed the local overexcavation
Summary
There are several types of support systems for deep foundation pits, among which the pile-anchor support structure system is a type of support widely used in engineering. The embedded depth of the soldier piles is an important parameter in the pile-anchor supporting structure system of deep foundation pits. Cui and Li [14] discussed the effects of the soldier pile insertion ratio and stiffness on the mechanical properties of the diaphragm wall using the method of field monitoring and numerical simulation correlation verification by using the deepest foundation pit project in Hainan Province as an example. This paper takes a typical row pile and anchor support structure in Futian District, Shenzhen, as an example and uses large-scale model tests as the main research method to study the deformation, soil settlement, and soil settlement of the soldier pile support system under different embedded depths. The analysis results suggested that the control value for the embedded depth of the soldier piles should not be less than 0.22 H
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