A calculation method for the embedded depth of stabilizing piles in reinforced slopes

Yan, Yinghua; Xiao, Shiguo

doi:10.1002/nag.3052

Cited by 6 publications

(2 citation statements)

References 38 publications

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“…At this time, the pile body only bears part of the landslide thrust, and the remaining thrust over the top of the pile is resisted by the rock-soil body itself, so the internal force of the pile body will be much smaller than that of the full-length pile. Studies have shown that this pile structure can effectively overcome the shortcomings of full-length piles [9,10]. Compared with full-length piles, buried piles have shorter force section length, lower maximum bending moment of pile body, and lower material usage, which can reduce costs when treating landslides with larger sliding body thickness, and they have been applied to some extent in landslide treatment in recent years [11].…”

Section: Introductionmentioning

confidence: 99%

Study on Optimal Pile Length in Load Section of Double-Row Buried Pile under Overtopping Failure Mode

Li,

Wang,

Yang

et al. 2024

Applied Sciences

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An anti-slide pile is a common landslide control measure. Compared with the full-length pile whose top extends to the ground, the buried pile is more optimal in internal force distribution, saves material and has remarkable economic benefits. At present, there is a lack of in-depth theoretical analysis on the pile length of the load section of double-row buried piles. In order to establish the design calculation method of pile length in the load section of double row buried piles, this paper is based on the failure mode of overtopping. The design equation of load section pile length is obtained by using the transfer coefficient and limit equilibrium method. Taking a landslide in Yan’an City, Shaanxi Province, China, as an example, the reliability and economics of double-row buried piles are verified by comparing the treatment effects of single-row, double-row and double-row buried piles, and the engineering design is completed. The results show that the landslide control project using the design calculation method can meet the requirements of slope stability and at the same time save a quarter of the material compared with the double row of full-length piles. The engineering example proves the rationality and practicability of the design method and provides engineering reference value for the use of the double-row buried anti-slide pile structure in large-scale landslide treatment.

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Section: Introductionmentioning

confidence: 99%

Study on Optimal Pile Length in Load Section of Double-Row Buried Pile under Overtopping Failure Mode

Li,

Wang,

Yang

et al. 2024

Applied Sciences

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show abstract

“…According to the strength reduction of the soil in the slip surface and a design factor of safety equal to the calculated stability factor of safety, the horizontal design landslide forces acting on the stabilising piles can be obtained. Xiao (2017) and Yan and Xiao (2020) proposed a TCM based on limit equilibrium theory and a variational calculus method within the framework of limit equilibrium for calculating the earth forces on embedded stabilising piles for reinforced landslides. Furthermore, Ao et al (2020) applied the strength reduction finite element method (SRFEM) to obtain the design landslide forces for embedded stabilising piles and considered the soil-pile friction.…”

Section: Introductionmentioning

confidence: 99%

A limit equilibrium method for the limiting landslide pressure acting on a retaining structure

Liu

2023

Preprint

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A novel limit equilibrium method is proposed for calculating the limiting landslide force acting on a planar sliding layer and on a retaining structure. The limiting landslide force can be determined by the horizontal force balance equation of the rigid block in the limit state adjacent to the retaining structure. Comparisons of the results obtained with the proposed method with the results obtained with the finite element method and limit analysis show that although the landslide pressure on one side of the rigid block is determined by the approximate method of curve fitting, the proposed method can be used in the design of landslide prevention. The proposed method can also analyse the influence of the soil-wall friction and the strength of the weak layer on the limiting landslide force. In addition, a simple, approximate, logarithmic spiral passive earth pressure theory-based formula is proposed to estimate the limiting landslide pressure for practical application.

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A statistical damage-based shear constitutive model for soils and its application to slope stability analysis

Xiao

2023

Continuum Mech. Thermodyn.

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A calculation method for the embedded depth of stabilizing piles in reinforced slopes

Cited by 6 publications

References 38 publications

Study on Optimal Pile Length in Load Section of Double-Row Buried Pile under Overtopping Failure Mode

Study on Optimal Pile Length in Load Section of Double-Row Buried Pile under Overtopping Failure Mode

A limit equilibrium method for the limiting landslide pressure acting on a retaining structure

A statistical damage-based shear constitutive model for soils and its application to slope stability analysis

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