应力–干湿循环耦合作用下砂泥岩接触面剪切特性与机制研究

doi:10.3724/1000-6915.jrme.2025.0418

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Abstract Under the combined influence of periodic water level fluctuations and the overlying rock mass, the hydro-fluctuation belt of reservoir bank slopes exhibits significant degradation in physical and mechanical properties, particularly in interbedded sandstone and mudstone formations. To investigate the shear mechanical characteristics of sandstone-mudstone interfaces, typical interfaces from the Three Gorges Reservoir area were examined through stress and dry-wet cycle coupling tests. The results indicate that this coupling effect leads to a nonlinear degradation trend in interfacial shear strength, cohesion, and internal friction angle, characterized by an initial rapid decline followed by a gradual reduction. The degradation intensifies with increasing overburden stress. A shear strength degradation model based on the Mohr-Coulomb criterion showed strong agreement with the experimental data. Microscopic analysis revealed a transition in the interface structure from dense to porous, with mudstone degradation playing a dominant role in the weakening of mechanical properties. These findings provide a theoretical basis for the degradation analysis and stability evaluation of clastic rock bank slopes in the Three Gorges Reservoir area.

Key words： rock mechanics overburden stress wet-dry cycling sandstone-mudstone interface shear strength degradation mechanism

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https://rockmech.whrsm.ac.cn/EN/10.3724/1000-6915.jrme.2025.0418 OR https://rockmech.whrsm.ac.cn/EN/Y2026/V45/I1/65

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