采矿与安全工程学报 ›› 2015, Vol. 32 ›› Issue (3): 478-484.

• 论文 • 上一篇    下一篇

煤柱底板主应力差演化特征及巷道布置

  

  1. 1.河南理工大学土木工程学院,河南 焦作 454000;2.山东能源临矿集团上海庙矿业公司,内蒙古鄂尔多斯 016200;3.贵州大学喀斯特环境与地质灾害防治教育部重点实验室,贵州 贵阳 550000
  • 收稿日期:2013-09-30 出版日期:2015-05-15 发布日期:2015-06-12
  • 作者简介:许磊(1980—),男,河南省焦作市人,博士,从事巷道支护和深部岩体力学性质方面的研究。
  • 基金资助:

    河南理工大学博士基金项目(B2015-70)

Principal stress difference evolution in floor under pillar and roadway layout

  • Received:2013-09-30 Online:2015-05-15 Published:2015-06-12

摘要: 采用FLAC3D 和理论分析研究了龙门塔矿8#煤层残余煤柱底板下主应力差分布规律,结果表明:① 煤柱边缘主应力差呈45º 向底板扩散,距离煤柱越远扩散范围越广且逐渐衰减;② 煤柱较窄时,中线和边缘主应力差影响深度浅,煤柱增大到中部具有弹性核时,底板主应力差变化和影响深度较大,当煤柱宽度足够大时,中部趋于原岩应力;③ 中线处、煤柱边缘处主应力差呈负指数规律向深部衰减;④ 同一水平面上,主应力差呈马鞍状分布;⑤ 煤柱宽度增加,煤柱中线处和边缘处主应力差先增大后减小,但煤柱边缘主应力差峰值位置先减小后增大。认为:① 内错布置可以避开主应力差峰值,巷道处于低主应力差环境;② 内错足够距离可避开较大的主应力差变化率。9207 胶带巷内错20 m,其承受平均主应力差小于1.5 MPa,两帮最大相对移近速度6 mm/d、顶底最大相对移近速度7 mm/d,10 d 实现自稳,两帮相对移近量87 mm,顶底相对移近量97 mm。

关键词: 煤柱, 底板, 主应力差, 内错

Abstract: Floor principal stress difference distribution characteristics of 8# coal pillars was simulated by FLAC3D and theoretical analysis. Research results are as follows: ① The principal stress difference near coal pillar edge transfers to floor in 45 degrees; the farther distance to coal pillar is, the wider the diffusion range is, and it decays gradually. ② When the pillar is narrow, influence depth of midline and edge is shallow. When the coal pillar has increased with a central elastic core, floor varies obviously and influence depth is big, and if the coal pillar is wide enough, the middle part is as stress of primary rock. ③ Principal stress difference in midline and coal pillar edge decreases to depth in the form of negative exponent. ④ In the same horizontal plane, principal stress difference are distributed as saddle shape. ⑤ With pillar width increasing, principal stress difference in the coal pillar midline and edge increases at first and then decreases; however principal stress difference peak position in coal pillar edge outer margin decreases at first and then increases. It has proved that: ① Inboard-type layout could avoid principal stress difference peak, and roadway is in the low principal stress difference environment;② Enough inboard distance could avoid major principal stress difference change rate. With in boardtype layout of 20 m in 9207 belt roadway, the average principal stress difference is below 1.5 MPa. Both sides maximal relative convergence velocity is 6 mm/d; roof-to-floor maximal relative convergence velocity is 7 mm/d; Self-stabilization period is 10 days; both sides relative convergence is 87 mm and roof-to-floor relative convergence is 97 mm.

Key words: coal pillar, floor, principal stress difference, inboard-type