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Triaxial compression behavior of large-scale jointed coal: a numerical study

Xiaoqing Wang, Fuqiang Gao

2022International Journal of Coal Science & Technology25 citationsDOIOpen Access PDF

Abstract

Abstract Accurate estimation of the triaxial compression behavior of jointed coal is essential for coal mining. Few studies addressed the triaxial compression behavior of large-scale rock mass, especially with real joint geometry. We employed a numerical synthetic rock mass (SRM) method to study the triaxial compression behavior of jointed coal. Jointed-coal specimens were constructed based on in-situ joint measurements and microparameter calibration against laboratory experiments. A series of triaxial compression tests under different loading orientations and confining pressures were numerically performed to obtain joint and confining-pressure effects on the triaxial compression behavior and reveal the failure mechanism of jointed coal. Results suggest that the triaxial compression behavior of the jointed coal has strong joint and confining-pressure effects. Joints weaken the strength and elastic modulus, reduce the lateral deformation, and affect the geometries of the shear-rupture surface. An increase in the confining pressure causes the peak and residual strength increase significantly. With an increase in the confining pressure, the elastic modulus increases sharply at low confining pressure, the mechanical behavior transitions from brittleness to ductility, the failure mode transitions from shear-rupture surface to plastic flow, and the joint effect diminishes and even disappears. The jointed coal fails by means of a shear-rupture surface under triaxial compression loading with a confining pressure (which is not too high), and the geometries of the shear-rupture surface vary with the distribution of joints.

Topics & Concepts

Overburden pressureGeotechnical engineeringBrittlenessShear (geology)Rock mass classificationGeologyCoalJoint (building)Triaxial shear testCompression (physics)Deformation (meteorology)Materials scienceElastic modulusDuctility (Earth science)Composite materialStructural engineeringEngineeringCreepWaste managementRock Mechanics and ModelingLandslides and related hazardsGeotechnical and Geomechanical Engineering
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