Research on numerical simulation technology of small and medium-sized polygonal approximate circular diaphragm wall

Shike Wang; Huan Xia; Yu Dong

doi:10.1117/12.3049045

12 November 2024 Research on numerical simulation technology of small and medium-sized polygonal approximate circular diaphragm wall

Shike Wang, Huan Xia, Yu Dong

Author Affiliations +

Proceedings Volume 13395, International Conference on Optics, Electronics, and Communication Engineering (OECE 2024) ; 133952W (2024) https://doi.org/10.1117/12.3049045
Event: International Conference on Optics, Electronics, and Communication Engineering, 2024, Wuhan, China

Abstract

In order to accurately analyse the construction process of circular shaft diaphragm wall in geotechnical engineering, based on the advancement of geotechnical engineering technology and the finite element method, we constructed a three-dimensional finite element analysis model, which comprehensively considered the factors such as groundwater seepage, soft and hard interlocking stratum conditions. The model comprehensively analysed the influence of soil layer, soil properties and support system on the project, and deeply studied the stress-strain changes of the support structure and soil body through numerical simulation. The construction complexity was accurately simulated by reasonably setting the boundary conditions, contact conditions and soil ontological relationship model. Comparison with the actual monitoring results verifies the accuracy of the model and error analysis is carried out. The study shows that the 3D finite element model provides a scientific basis for engineering design and construction.

(2024) Published by SPIE. Downloading of the abstract is permitted for personal use only.

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Shike Wang, Huan Xia, and Yu Dong "Research on numerical simulation technology of small and medium-sized polygonal approximate circular diaphragm wall", Proc. SPIE 13395, International Conference on Optics, Electronics, and Communication Engineering (OECE 2024) , 133952W (12 November 2024); https://doi.org/10.1117/12.3049045

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KEYWORDS

3D modeling

Engineering

Finite element methods

Numerical simulations

Soil science

Deformation

Analytical research

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