Mechanics-Seepage Experimental and Simulation Study of Gas-Bearing Coal under Different Load Paths

Abstract: Mechanics-seepage synchronous tests on gas-bearing coal under three different stress paths were designed and implemented to evaluate how load path affected the mechanical strength and permeability of deep mining-disturbed coal. The cracks-count evolution of coal specimens during instability was observed through DEM numerical simulation. The results showed significant stress-strain and strength variations under different paths. At the time of failure, the specimen deformation and peak strength were Test 1 > … Show more

“…Haitao Sun and coworkers [19] further clarified the occurrence and developmental mechanism of coal-rock gas composite dynamic disasters in an engineering-scale mining environment and provided guidelines for the prevention and control of coal-rock gas dynamic disasters in deep mines. Haibo Sun and coworkers [20] observed the law behind the evolution in the number of cracks in the process of coal specimen instability via DEM-based numerical simulation.…”

Special Issue “Process Safety in Coal Mining”

“…Haitao Sun and coworkers [19] further clarified the occurrence and developmental mechanism of coal-rock gas composite dynamic disasters in an engineering-scale mining environment and provided guidelines for the prevention and control of coal-rock gas dynamic disasters in deep mines. Haibo Sun and coworkers [20] observed the law behind the evolution in the number of cracks in the process of coal specimen instability via DEM-based numerical simulation.…”

Special Issue “Process Safety in Coal Mining”