Experimental and numerical study of coal-rock bimaterial composite bodies under triaxial compression

被引:0
|
作者
Yulong Chen
Jianping Zuo
Dejun Liu
Yingjie Li
Zhenbo Wang
机构
[1] China University of Mining and Technology,State Key Laboratory of Coal Resources and Safe Mining
[2] China University of Mining and Technology,School of Energy and Mining Engineering
[3] China University of Mining and Technology,School of Mechanics and Civil Engineering
来源
International Journal of Coal Science & Technology | 2021年 / 8卷
关键词
Coal‐rock bimaterial composite body; Triaxial compression; Strength and deformation; X-ray CT; Numerical simulation; Energy;
D O I
暂无
中图分类号
学科分类号
摘要
To accurately predict coal burst hazards and estimate the failure of coal pillars in underground coal mining systems, it is of great significance to understand the mechanical behavior of coal-rock bimaterial composite structures. This paper presents experimental and numerical investigations on the response of rock-coal, coal-rock, and rock-coal-rock bimaterial composite structures under triaxial compression. The triaxial compression experiments are conducted under confining pressures in the range of 0–20 MPa. The resulting inside fracture networks are detected using X-ray-based computed tomography (CT). The experimentally observed data indicate that the mechanical parameters of the rock-coal-rock composites are superior to those of the rock-coal and coal-rock combinations. After compression failure, the coal-rock combination specimens are analyzed via X-ray CT. The results display that the failure of the coal-rock composite bodies primarily takes place within the coal. Further, the bursting proneness is reduced by increasing confining pressure. Subsequently, the corresponding numerical simulations of the experiments are carried out by using the particle flow code. The numerical results reveal that coal is vulnerable with regard to energy storage and accumulation.
引用
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页码:908 / 924
页数:16
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