2020
DOI: 10.1016/j.tust.2020.103492
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Stability analysis of integral load-bearing structure of surrounding rock of gob-side entry retention with flexible concrete formwork

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Cited by 37 publications
(17 citation statements)
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“…The supporting materials used in the technique primarily include flexiblehard materials, flexible concrete formworks, high-water filling materials, and bag filling materials. [8][9][10][11] Furthermore, the failure characteristics of the surrounding rock under different conditions, such as high roof pressure, large deformation of gob-side entry, and failure of gob-side walls, should be prioritized. [12][13][14] To address the aforementioned challenges and simultaneously ensure that the gob-side entry-retaining technique remains effective, an innovative no-pillar mining method, known as the N00 longwall mining method, was proposed in China in 2016.…”
mentioning
confidence: 99%
“…The supporting materials used in the technique primarily include flexiblehard materials, flexible concrete formworks, high-water filling materials, and bag filling materials. [8][9][10][11] Furthermore, the failure characteristics of the surrounding rock under different conditions, such as high roof pressure, large deformation of gob-side entry, and failure of gob-side walls, should be prioritized. [12][13][14] To address the aforementioned challenges and simultaneously ensure that the gob-side entry-retaining technique remains effective, an innovative no-pillar mining method, known as the N00 longwall mining method, was proposed in China in 2016.…”
mentioning
confidence: 99%
“…where m is coal seam thickness, 5.40 m; A is lateral pressure coefficient, taken as 1.2; φ 0 is the internal friction angle of coal seam, 20°; c 0 is the cohesion, 0.6 MPa; k is stress concentration factor, taken as 1.5; γ is average bulk density of rock, 25 kN m −3 ; H is buried depth of coal seam, 630 m; p z is support resistance provided by bolt support to coal wall, 0.25 MPa. [30][31][32] According to the above conditions, X 1 = 3.03 m and X 2 = 1.45-2.42 m are obtained. Therefore, it can be concluded that reasonable range of coal pillar width B is 6.28-7.25 m.…”
Section: Theoretical Calculationmentioning
confidence: 99%
“…During the coal extraction process of longwall working face, with the advancement of the longwall working face, the immediate roof above the coal seam will sink, displace, break, and collapse, but the main roof above the coal seam will break to form an arc-shaped triangle block (Zhang et al, 2020a;Shen et al, 2021). There has been an amount of research on gob-side entry driving, gob-side entry retaining, and other no-pillar layout systems (Shen et al, 2018;Xie et al, 2020;Zhang et al, 2021b). Hou and Li (2001) explained the "small structure" of the roof in detail, and provided the layout position of the narrow coal pillar roadway.…”
Section: Introductionmentioning
confidence: 99%