泥质云母片岩剪切力学特性的含水率及片理倾角影响规律

    INFLUENCE OF WATER CONTENT AND SCHISTOSITY ON SHEAR MECHANICAL PROPERTIES OF ARGILLACEOUS MICA SCHIST

    • 摘要: 通过对不同片理倾角、不同含水率的泥质云母片岩开展直剪试验,揭示片理面倾角及含水率对云母片岩剪切力学特性的影响机制;借助PFC2D模拟,理清岩体内细观裂纹的分布规律,综合室内试验结果确定岩体的破坏模式;基于破裂模式建立云母片岩剪切破裂力学模型,推导出适宜于任意片理倾角的岩体抗剪强度理论公式。结果表明:随着片理倾角的增加,岩体黏聚力呈线性增加的趋势,内摩擦角先增后减;含水率的降低使得黏聚力及内摩擦角增大,黏聚力对含水率的敏感程度相较于内摩擦角更大;云母片岩主要呈现3种破裂模式,分别为沿片理面的剪切破裂、部分沿片理剪切破裂部分跨片理层拉剪破裂和端部拉剪破裂中部跨层剪切破裂;随着片理倾角的增大,片理面剪裂纹数呈先增后减的趋势,而总裂纹、岩石基质剪、拉裂纹和片理面的拉裂纹呈增大的趋势;推导出的岩体抗剪强度理论值与试验结果吻合良好。

       

      Abstract: Through direct shear tests on argillaceous mica schist with different schistosity inclinations and water contents, the influence mechanism of schistosity inclination and water content on the shear mechanical properties of mica schist was revealed. Combined with PFC2D simulations, the distribution law of mesoscopic cracks in the rock mass was clarified, and the failure pattern of the rock mass was proposed. Based on the proposed failure pattern, a shear fracture mechanical model of mica schist was established, and a theoretical formula for its shear strength applicable to any schistosity inclination was derived. The results show that the cohesion of the rock mass increases linearly with increasing schistosity inclination, while the internal friction angle first increases and then decreases. A decrease in water content increases both cohesion and internal friction angle, with cohesion being more sensitive to water content than the internal friction angle. Three main failure patterns of mica schist are identified: shear failure along the schistosity; partial shear failure along the schistosity combined with partial tension-shear failure across the schistosity; and tension-shear failure at the ends with shear failure in the middle. As schistosity inclination increases, the number of shear cracks on schistosity surfaces first increases and then decreases, while the total number of cracks, shear cracks, tensile cracks in the rock matrix, and tensile cracks on schistosity surfaces all increase. The theoretical values of shear strength agree well with the experimental results.

       

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