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锚杆锚索联合支护技术在薄煤层复合顶板回采巷道的应用
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作者 杜广涛 芦钢 《中国新技术新产品》 2014年第15期152-152,共1页
本文分析薄煤层工作面回采巷道围岩赋存特点总结变形破坏规律,浅析薄煤层复合顶板回采巷道的支护机理,由巷道支护参数的确定锚杆、锚索联合支护的技术方案,通过理论与实践研究,锚杆锚索联合支护技术支护效果良好,最大限度地保持了巷道... 本文分析薄煤层工作面回采巷道围岩赋存特点总结变形破坏规律,浅析薄煤层复合顶板回采巷道的支护机理,由巷道支护参数的确定锚杆、锚索联合支护的技术方案,通过理论与实践研究,锚杆锚索联合支护技术支护效果良好,最大限度地保持了巷道围岩的完整性。 展开更多
关键词 煤层地质条件 巷道支护机理 锚杆锚索联合支护
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Mechanism and technology study of collaborative support with long and short bolts in large-deformation roadways 被引量:5
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作者 Yu Hui Niu Zhiyong +2 位作者 Kong Linggen Hao Caicheng Cao Peng 《International Journal of Mining Science and Technology》 SCIE EI CSCD 2015年第4期587-593,共7页
Common short bolts of equal length are widely used to support the roofs of roadways in coal mines.However, they are insufficient to keep the roof stable against large deformations, so docking long bolts with high leve... Common short bolts of equal length are widely used to support the roofs of roadways in coal mines.However, they are insufficient to keep the roof stable against large deformations, so docking long bolts with high levels of elongation that can adapt to large deformations of the surrounding rock have been adopted. This paper proposes a collaborative support method that uses long and short bolts. In this study,the mechanism of docking long bolts and collaborative support was studied. Numerical simulation, similarity simulation, and field testing were used to analyze the distribution law of the displacement, stress,and plastic failure in the surrounding rock under different support schemes. Compared with the equal-length short bolt support, the collaborative support changed the maximum principal stress of the shallow roof from tensile stress to compressive stress, and the minimum principal stress of the roof significantly increased. The stress concentration degree of the anchorage zone clearly increased. The deformation of the roof and the two sides was greatly reduced, and the subsidence shape of the shallow roof changed from serrated to a smooth curve. The roof integrity was enhanced, and the roof moved down as a whole. Plastic failure significantly decreased, and the plastic zone of the roof was within the anchorage range. The similarity simulation results showed that, under the maximum mining stress,the roof collapsed with the equal-length short bolt support but remained stable with the collaborative support. The collaborative support method was successfully applied in the field and clearly improved the stability of the surrounding rock for a large deformation roadway. 展开更多
关键词 Collaborative support with long and shortbolt Docking long bolt Numerical analysis Similarity simulation
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Control technology for floor heave of Jurassic soft rock in the Erdos Basin of China: A case study 被引量:6
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作者 WEN Zhi-jie JING Suo-lin +1 位作者 MENG Fan-bao JIANG Yu-jing 《Journal of Central South University》 SCIE EI CAS CSCD 2022年第12期4051-4065,共15页
The deformation of soft rock roadway caused by floor heave is a major challenge for coal mines in China western mining areas. To achieve security and stability of soft rock roadway, this work considered the headgate a... The deformation of soft rock roadway caused by floor heave is a major challenge for coal mines in China western mining areas. To achieve security and stability of soft rock roadway, this work considered the headgate at panel 11505 of the Yushujing Coal Mine as background. First, based on the limit equilibrium method and slip line field theory,a model of floor heave was established, the mechanism of floor heave control was analyzed, and an optimized support method was proposed. Then, the displacement, stress and failure zones around the surrounding rock with the original and optimized support were studied by FLAC. Finally, the serviceability of the support method was verified by field application. The results showed that the main deformation form of soft rock roadway is floor heave, and 0.5 m is relatively reasonable thicknesses of the inverted arch. The extrusion failure zone and shear failure zone were mainly affected by tensile and shear failure, respectively. The modification of floor and the effective support are key points. The failure zone was consistent between numerical simulation and theoretical calculation. The maximum convergences of floor heave determined by numerical simulation and field measurement were 220 mm and 240 mm, respectively, which were reduced by 55% and 60% compared with the original support, and the convergence between sidewalls decreased considerably. The optimized support method controls the floor heave well. 展开更多
关键词 soft rock roadway floor heave mechanical model control mechanism optimized support
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Analysis of soft rock mineral components and roadway failure mechanism 被引量:1
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作者 陈杰 《Journal of Coal Science & Engineering(China)》 2001年第2期87-90,共4页
The mineral components and microstructure of soft rock sampled from roadway floor in Xiagou pit are determined by X ray diffraction and scanning electron microscope. Combined with the test of expansion and water softe... The mineral components and microstructure of soft rock sampled from roadway floor in Xiagou pit are determined by X ray diffraction and scanning electron microscope. Combined with the test of expansion and water softening property of the soft rock, the roadway failure mechanism is analyzed, and the reasonable repair supporting principle of roadway is put forward. 展开更多
关键词 soft rock mineral components MICROSTRUCTURE failure mechanism
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Failure mechanism and control technology of water-immersed roadway in high-stress and soft rock in a deep mine 被引量:11
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作者 Yang Renshu Li Yongliang +3 位作者 Guo Dongming Yao Lan Yang Tongmao Li Taotao 《International Journal of Mining Science and Technology》 SCIE EI CSCD 2017年第2期245-252,共8页
Aiming at soft rock ground support issues under conditions of high stress and long-term water immersion, the ground failure mechanism is revealed by taking the deep-water sumps of Jiulong Mine as the engineering backg... Aiming at soft rock ground support issues under conditions of high stress and long-term water immersion, the ground failure mechanism is revealed by taking the deep-water sumps of Jiulong Mine as the engineering background and employing field investigation, tests of rock structure, mechanical properties and mineral composition. The main factors leading to the surrounding rock failure include the high and complex stress state of the water sumps, high-clay content and water-weakened rock, and the unreasonable support design. In this paper, the broken and fractured rock mass near roadway opening is considered as ground small-structure, and deep stable rock mass as ground large-structure. A support technology focusing on cutting off the water, strengthening the small structure of the rock and transferring the large structure of the rock is proposed. The proposed support technology of interconnecting the large and small structures, based on high-strength bolts, high-stiffness shotcrete layer plugging water,strengthening the small structure with deep-hole grouting and shallow-hole grouting, highpretensioned cables tensioned twice to make the large and small structures bearing the pressure evenly,channel-steel and high-pretensioned cables are used to control floor heave. The numerical simulation and field test show that this support system can control the rock deformation of the water sumps and provide technical support to similar roadway support designs. 展开更多
关键词 High stress and soft rock Water immersion Failure mechanism Large and small structures Rework control
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Applied on bolting-cable anchor support of full-seam roadway in weaker thick coal seam
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作者 赵庆彪 张生华 郭励生 《Journal of Coal Science & Engineering(China)》 2003年第1期61-66,共6页
The designing method and the supporting mechanism of both bolt and small cable anchor for full seam roadway in the weaker thick coal seam are systematically analyzed, and the construction technology and the supporting... The designing method and the supporting mechanism of both bolt and small cable anchor for full seam roadway in the weaker thick coal seam are systematically analyzed, and the construction technology and the supporting results are briefly summarized. 展开更多
关键词 full seam roadway bolting cable anchor support dynamic monitoring
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