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Anisotropic shearing mechanism of Kangding slate: Experimental investigation and numerical analysis

Ping Liu, Quansheng Liu, Penghai Deng, Yucong Pan, Yiming Lei, Chenglei Du, Xianqi Xie

2023Journal of Rock Mechanics and Geotechnical Engineering17 citationsDOIOpen Access PDF

Abstract

The shear mechanical behavior is regarded as an essential factor affecting the stability of the surrounding rocks in underground engineering. The shear strength and failure mechanisms of layered rock are significantly affected by the foliation angles. Direct shear tests were conducted on cubic slate samples with foliation angles of 0°, 30°, 45°, 60°, and 90°. The effect of foliation angles on failure patterns, acoustic emission (AE) characteristics, and shear strength parameters was analyzed. Based on AE characteristics, the slate failure process could be divided into four stages: quiet period, step-like increasing period, dramatic increasing period, and remission period. A new empirical expression of cohesion for layered rock was proposed, which was compared with linear and sinusoidal cohesion expressions based on the results made by this paper and previous experiments. The comparative analysis demonstrated that the new expression has better prediction ability than other expressions. The proposed empirical equation was used for direct shear simulations with the combined finite-discrete element method (FDEM), and it was found to align well with the experimental results. Considering both computational efficiency and accuracy, it was recommended to use a shear rate of 0.01 m/s for FDEM to carry out direct shear simulations. To balance the relationship between the number of elements and the simulation results in the direct shear simulations, the recommended element size is 1 mm.

Topics & Concepts

Shearing (physics)Cohesion (chemistry)Direct shear testShear (geology)GeologyDiscrete element methodAnisotropyAcoustic emissionFinite element methodGeotechnical engineeringMechanicsStructural engineeringMaterials scienceEngineeringPhysicsPetrologyOpticsComposite materialQuantum mechanicsRock Mechanics and ModelingLandslides and related hazardsTunneling and Rock Mechanics
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