梅福星, 尚宇琦, 孔德中, 等. 基于DIC技术近距离煤层采动裂隙-位移-应变演化规律相似模拟研究[J]. 矿业科学学报, 2024, 9(4): 519-528. DOI: 10.19606/j.cnki.jmst.2024.04.004
引用本文: 梅福星, 尚宇琦, 孔德中, 等. 基于DIC技术近距离煤层采动裂隙-位移-应变演化规律相似模拟研究[J]. 矿业科学学报, 2024, 9(4): 519-528. DOI: 10.19606/j.cnki.jmst.2024.04.004
MEI Fuxing, SHANG Yuqi, KONG Dezhong, et al. DIC-based similar simulation study on the evolution patterns of mining-induced fracture, displacement and strain in close distance coal seam[J]. Journal of Mining Science and Technology, 2024, 9(4): 519-528. DOI: 10.19606/j.cnki.jmst.2024.04.004
Citation: MEI Fuxing, SHANG Yuqi, KONG Dezhong, et al. DIC-based similar simulation study on the evolution patterns of mining-induced fracture, displacement and strain in close distance coal seam[J]. Journal of Mining Science and Technology, 2024, 9(4): 519-528. DOI: 10.19606/j.cnki.jmst.2024.04.004

基于DIC技术近距离煤层采动裂隙-位移-应变演化规律相似模拟研究

DIC-based similar simulation study on the evolution patterns of mining-induced fracture, displacement and strain in close distance coal seam

  • 摘要: 为研究近距离煤层采动条件下覆岩裂隙演化规律,以安顺煤矿9305工作面为研究对象,利用相似模拟试验研究近距离煤层开采过程中位移场与应变场的演化情况。结果表明:①上覆岩层随着工作面距离的不断推进,先形成离层裂隙和纵向裂隙,随后采空区中部部分离层逐渐压实;②位移场在工作面推进方向上出现不对称分布,工作面侧覆岩位移量明显小于采空区靠左区域,位移峰值主要集中在采空区中部;③最大主应变集中位置由采空区中部向开切眼侧以及工作面侧进行不对称转移,开切眼侧集中程度明显大于工作面侧,且最大主应变集中位置与瓦斯富集区存在潜在关联。

     

    Abstract: This study investigates the fracture evolution patterns of overlying strata under the mining conditions of close-distance coal seams.Taking the 9305 working face of Anshun Coal Mine as the research object, this study probed into the evolution of displacement field and strain field during the mining process of close-distance coal seams through physical similarity simulation test.The results show that ①with the continuous advancement of distance from the working face, the overburden strata first form separation cracks and longitudinal cracks, and then the middle part of the goaf is gradually compacted.②The displacement field is asymmetrically distributed in the advancing direction of the working face, The displacement of the overlying rock on the side of the working face is obviously smaller than that on the left side of the goaf, and the peak displacement is mainly concentrated in the middle of the goaf.③The maximum principal strain concentration position is asymmetrically transferred from the middle of the goaf to the open-off cut side and the working face side.The concentration degree of the open-off cut side is significantly higher than that of the working face side.This reveals that a potential correlation exists between the maximum principal strain concentration position and the gas enrichment area.

     

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