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Stress Distribution in Direct Shear Loading and its Implication for Engineering Failure Analysis

Zhen Li, Jiachen Liu, Huoxing Liu, Hongbo Zhao, Rongchao Xu, Filip Gurkalo

2023International Journal of Applied Mechanics25 citationsDOI

Abstract

Shear stress concentrations may promote damage and failure processes. Quantities of studies have focused on the direct shear loading test, while the analytical model has not yet been studied in depth. Aiming to fill the knowledge gap, the theoretical and numerical analyses of the shear stress distribution in the shear band were investigated. In order to reflect the variation in the stress state, the differential element method was first used. The shear stress distribution equation was derived from the stress equilibrium, geometric and physical equations. The shear stress distribution was plotted, using the proposed equation. After that, the ratio of yield strength to crack initiation strength was calculated. The analytical model was analyzed with FDEM simulation, and the results were compared with those obtained from the laboratory tests. Using the elastoplastic theory, the damage evolution and process in rock were characterized from laboratory scale. The implication for underground engineering analysis was finally discussed with a case study of strain rockburst in hard rock. The analytical model and results could provide a fundamental basis for stability analysis in geotechnical engineering.

Topics & Concepts

Shear (geology)Geotechnical engineeringShear stressDirect shear testStructural engineeringShear strength (soil)Triaxial shear testStress (linguistics)Finite element methodMechanicsMaterials scienceGeologyEngineeringComposite materialPhysicsPhilosophySoil waterSoil scienceLinguisticsRock Mechanics and ModelingGeomechanics and Mining EngineeringGeotechnical and Geomechanical Engineering
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