基于黏结颗粒模型某滑坡土石混合体直剪试验数值模拟

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Abstract The elementary process of establishing numerical model based on digital image processing is introduced. According to the method，the particle flow numerical models of soil and rock mixture(SRM) can be obtained directly by field digital photos. Taking SRM in a landslide near the dam of Xiluodu hydropower station for example，the numerical model is established by field photo. The micro-mechanical parameters of gravel and soil are well studied by using the particle flow code in two dimensions(PFC2D)；and micro-mechanical parameters corresponding to their macro-mechanical features are selected. The numerical simulation of direct shear test for the SRM is conducted under serious normal pressures and the results of SRM are compared with those of heterogeneous soil. The main research results can be summarized as follows：Firstly，the microparameters of soil inversely calculated by biaxial compression test is used in direct shear test to get macroparameters of soil；and these macroparameters are consistent with practice. Compared with heterogeneous soil，the initial shear stiffness of the SRM with certain content gravel is higher，and the shear displacement required for the SRM reaching to its peak shear strength is reduced. Under the assumption that the bonded strength between gravel and soil is one tenth of the soil?s，the internal friction angle of the SRM is larger，while the cohesion is lower. Compared with the fracture plane in heterogeneous soil model after direct shear tests，the cracks developed in the SRM numerical model can be divided into two parts：some are around the shear plane formed broad fractures band，the others distribute between gravel and soil. Also according to the characters of shear failure，the reason for enhancing shear performance of the SRM which contains a certain amount of gravel can be introduced qualitatively.

Key words： soil mechanics soil and rock mixture particle flow model direct shear test numerical simulation shear strength consolidation digital image processing

Received: 12 August 2011

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https://rockmech.whrsm.ac.cn/EN/Y2013/V32/Is1/2650

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