DESIGN AND PRACTICAL APPLICATION OF SUPPORT SELECTION FOR HIGH-FILL CONSTRAINED SLOPES
Due to the complexity of the topography and geological conditions in the Pearl River Delta region of Chi-na,the rapid development of logistics and warehousing has led to a series of unique engineering challenges.The lim-ited space for slope reduction due to terrain and construction boundaries makes the stability and economic viability of high-fill slopes a critical focus in slope support selection and construction.This paper presents an engineering case study that utilizes the Leading Geotechnical software and Midas GTS finite element software for comparative analysis of two design support schemes.Additionally,the fuzzy optimization theory is employed to determine the op-timal slope support scheme,which has been successfully applied in practice.This study provides valuable referenc-es for slope support selection in high-fill,constrained slopes in mountainous logistics and warehousing projects in China.
high-fill slopescomposite support structureslogistics and warehousing construction
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