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Spatiotemporal evolution rule of rocks fracture surrounding gob-side roadway with model experiments 被引量:7

Spatiotemporal evolution rule of rocks fracture surrounding gob-side roadway with model experiments
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摘要 A series of plane-strain physical model experiments are carried out to study the spatiotemporal evolution rule of rocks fracture surrounding gob-side roadway, which is subjected to the pressure induced by the mining process. The digital photogrammetry technology and large deformation analysis method are applied to measure the deformation and fracture of surrounding rocks. The experimental results indicate that the deformation and fracture of coal pillars are the cause to the instability and failure of the surrounding rocks. The spatiotemporal evolution rule of the rock deformation and fracture surrounding gob-side roadway is obtained. The coal pillar and the roof near coal pillar should be strengthened in support design. The engineering application results also can provide a useful guide that the combined support with wire meshes, beam, anchor bolt and cable is an effective method. A series of plane-strain physical model experiments are carried out to study the spatiotemporal evolution rule of rocks fracture surrounding gob-side roadway, which is subjected to the pressure induced by the mining process. The digital photogrammetry technology and large deformation analysis method are applied to measure the deformation and fracture of surrounding rocks. The experimental results indicate that the deformation and fracture of coal pillars are the cause to the instability and failure of the surrounding rocks. The spatiotemporal evolution rule of the rock deformation and fracture surrounding gob-side roadway is obtained. The coal pillar and the roof near coal pillar should be strengthened in support design. The engineering application results also can provide a useful guide that the combined support with wire meshes, beam, anchor bolt and cable is an effective method.
出处 《International Journal of Mining Science and Technology》 SCIE EI CSCD 2016年第5期895-902,共8页 矿业科学技术学报(英文版)
基金 supported by the National Natural Science Foundation of China (No. 51174197) the Major State Basic Research Development Program of China (No. 2014CB046905) State Key Laboratory for Geo Mechanics and Deep Underground Engineering (CUMT) (No. SKLGDUEK1503) the ‘Qing Lan’ Project of Jiangsu Province
关键词 Model experiment Digital photogrammetry Gob-side roadway Spatiotemporal evolution rule Stability control and combined support Model experiment Digital photogrammetry Gob-side roadway Spatiotemporal evolution rule Stability control and combined support
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