Abstract
In order to study the bearing characteristics and failure mechanism of the rigid antislide pile under horizontal load, the stress of rigid antislide pile under transverse axial large displacement load is analyzed by using elastic-plastic theory, finite element analysis, and model test. The theoretical formula of the proximal plastic earth pressure near the pile with the depth of soil under the horizontal force is obtained. The results show that the standard is insensitive to the variation of soil parameters and the influence of soil parameters on allowable soil resistance in front of pile should be considered. With the increase of the horizontal force of the pile top, the soil near the pile is destroyed in this process gradually, which is the decline of the cross section of the maximum soil resistance of the pile. When the horizontal displacement of pile top is 20 mm and 70 mm, the soil resistance value and the ultimate soil resistance value in front of the pile can be selected, respectively. The plastic zone develops to the front and bottom of the pile at the same speed, at an angle of 45° with the direction of gravity. When the displacement reaches 34 mm, the plastic zone develops to the deeper depth obviously. The results can provide a theoretical basis for the design and application of antislide piles during the process of slope protections.
Highlights
There are lots of rocky slopes or steep terrain during road construction
Antislide pile plays an indispensable role in the protection of slope engineering among many slope treatment schemes
It is necessary to solve the analytical formula under the joint action of the eccentric load on the pile top and the horizontal distributed load on the pile body [2] and to find out the landslide thrust acting on the antislide pile and the transfer relationship between the antislide pile and the forward sliding force of the pile [3]
Summary
There are lots of rocky slopes or steep terrain during road construction. The rock and soil body of the slope is prone to instability and landslide and affects the construction and normal operation of the highway when it is affected by hydraulic action, earthquake, artificial blasting, and other factors. The main function of an antislide pile is to resist sliding thrust from soil to maintain slope stability. As for the calculation of internal force and soil resistance of horizontal load pile, the p - y curve method is one of the most widely used methods in the world. It takes into account the nonlinear and stratified characteristics of soil and is suitable for large horizontal displacement of pile top due to horizontal axial load of pile [7].
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