Semi-analytical BEM-FEM analysis of SDCM wall as passive wave barrier in saturated soil

Semi-analytical BEM-FEM analysis of SDCM wall as passive wave barrier in saturated soil

This study proposes a novel environmentally friendly wave barrier, the Stiffened Deep Cement Mixing (SDCM) wall, for mitigating ground vibrations in saturated soils. An in-site measurement of ground vibrations due to the metro-train in Shanghai was introduced and the dominant frequency of ground vib...

Full description

Saved in:
Bibliographic Details
Main Authors: Xiang Zhu, Gang Shi, Xinjun Gao, Hao Zhang, Song Wang, Guangyun Gao
Format: Article
Language:English
Published: Elsevier 2025-09-01
Series:Results in Engineering
Subjects:
SDCM wall
Wave barrier
Saturated soil
Passive vibration isolation
Coupled semi-analytical BEM-FEM
Vibration isolation effectiveness
Online Access:http://www.sciencedirect.com/science/article/pii/S2590123025019309
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:This study proposes a novel environmentally friendly wave barrier, the Stiffened Deep Cement Mixing (SDCM) wall, for mitigating ground vibrations in saturated soils. An in-site measurement of ground vibrations due to the metro-train in Shanghai was introduced and the dominant frequency of ground vibrations was analyzed. Then the feasibility of using SDCM wall as wave barrier was discussed, and an in-situ validation test confirmed the feasibility and vibration reduction capability of SDCM walls. Further, a three-dimensional coupled semi-analytical BEM-FEM model was developed to analyze the passive vibration isolation effectiveness of SDCM walls against incident Rayleigh waves in saturated soil. And the model incorporates a parallel SPMD algorithm for efficiency and addresses corner discontinuities using a multi-value-node method. The effects of the model parameters on isolation effectiveness were investigated and discussed in detail. The results show that SDCM walls successfully isolate ground vibrations, with core piles (PHC/PHS) playing a critical role. Optimal performance is achieved when core pile depth matches the DCM wall depth, cross-sections are large, and pile holes remain empty. When the length of SDCM wall is constant, one can obtain a better screening efficiency and the less number of core piles by appropriately increasing the net spacing between piles. Moreover, the SDCM wall length should be sufficiently large to protect target structures, and a depth exceeding 1.0λR(Rayleigh wavelength) ensures effectiveness without requiring excessive depth.
ISSN:2590-1230

Similar Items