Volume 18, No. 4, 2024
Received: 2024/03/08, Accepted: 2024/07/13
Authors:
Binpeng Lan; Yanping Wang; Weiguo Wang; Yijun Wang; Ke Ruan;
Abstract:
In combination with the field monitoring data, PLAXIS3D finite element software was used to numerically model the pull-pile supporting structure in a deep foundation pit. This structure was compared to the single-row pile support structure in order to learn more about the pull-pile supporting structure's force and deformation characteristics and how it works. The study found that the cumulative horizontal displacement curves of the supporting piles are integrated into an “upward convex” shape. The bending moment curve of the front-row piles presents an “inverted S” shape, and the bending moment curve of the back-pull piles presents a “bow” shape. The “back-pull-pile effect” can improve the unbalanced distribution of positive and negative bending moments in single-row piles by changing the stress condition of the soil. In other words, the pull-pile supporting structure has good safety and serviceability and can well control the lateral displacement of the foundation pit.
Keywords:
deep foundation pit; pull-pile supporting structure; stress and deformation laws; work principles