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Numerical Study of the Strength and Characteristics of Sandstone Samples with Combined Double Hole and Double Fissure Defects

Junbiao Ma, Ning Jiang, Xujun Wang, Xiaodong Jia, Dehao Yao

2021Sustainability23 citationsDOIOpen Access PDF

Abstract

To explore the failure mechanism of rock with holes and fissures, uniaxial compression tests of sandstone samples with combined double hole and double fissure defects were carried out using Particle Flow Code 2D (PFC2D) numerical simulation software. The failure behaviour and mechanical properties of the sandstone samples with combined double hole and double fissure defects at different angles were analysed, and the evolution results of the stress field and crack propagation were studied. The results show that with a decrease in fissure angle, the crack initiation stress, damage stress, elastic modulus and peak stress of the defective rock decrease, while the peak strain increases, and the brittleness of the rock is weakened. Rocks with combined double hole and double fissure defects at different angles lead to different failure modes, crack initiation positions and crack development directions. After uniaxial compression, both compressive stress and tensile stress concentration areas are produced in the defective rock, but the compressive stress concentration is of primary importance. The concentration area is mainly distributed around the holes and fissures and the defect connecting line, and the stress concentration area decreases with the decreasing fissure angle. This study can correctly predict the mechanical properties of rock with combined double hole and double fissure defects at different angles and provide a reference for actual rock engineering.

Topics & Concepts

FissureBrittlenessCompression (physics)Materials scienceUltimate tensile strengthStress fieldGeologyStress (linguistics)Geotechnical engineeringCompressive strengthComposite materialStructural engineeringFinite element methodLinguisticsPhilosophyEngineeringRock Mechanics and ModelingLandslides and related hazardsTunneling and Rock Mechanics