直剪试验
岩土工程
剪切(地质)
材料科学
失效模式及影响分析
胶结(地质)
地质学
剪应力
抗剪强度(土壤)
结构工程
复合材料
工程类
水泥
土壤科学
土壤水分
作者
Hexin Ye,Jinlin Huang,Jianwei Zhang,Yu Lai,Kelei Cao,Yong Wang,Wenxuan Wang
出处
期刊:Materials
[Multidisciplinary Digital Publishing Institute]
日期:2025-06-10
卷期号:18 (12): 2718-2718
摘要
Owing to the insufficient understanding of the mechanical properties and damage mechanisms of concrete-rock bonding interfaces in dam foundations, this study establishes a refined three-dimensional simulation model for direct shear tests of concrete-rock bonding interfaces based on in-situ direct shear tests conducted at a reservoir. The damage evolution process and failure mechanisms of the concrete-rock interface under different loading conditions are investigated. The results indicate that under varying normal stresses, the shear stress-shear displacement curve exhibits an initial increase followed by a gradual decrease, with peak shear strength ranging from 1.074 MPa to 2.073 MPa and a maximum error of 8.48%, meeting engineering requirements. The damage evolution process of the concrete-rock interface under different normal forces was simulated and compared with in-situ direct shear test results, confirming the accuracy of the simulation. The failure modes of the concrete-rock interface under different loading conditions can be categorized into three types: bonding interface failure, mixed shear failure, and rock failure. The failure mode is closely related to the magnitude of normal stress—as normal stress increases, the area of shear fracture along the bonding interface expands, and the fracture surface becomes smoother. The findings provide a theoretical basis for the design, anti-sliding stability, and risk analysis of similar concrete gravity dams.
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