收稿日期: 2020-06-14
修回日期: 2020-07-29
网络出版日期: 2021-01-29
基金资助
中央高校基本科研业务费专项“深部强采动诱致采场围岩失稳判别及其响应特征”(N2001033);NSFC-山东联合基金项目“胶西北滨海深部含金构造探测与采动灾害防控机理研究”(U1806208)
Control Technology of High Stress Broken Surrounding Rock in Kilometer Deep Shaft
Received date: 2020-06-14
Revised date: 2020-07-29
Online published: 2021-01-29
针对千米深井高应力破碎围岩控制难题,以三山岛金矿大埋深巷道为工程背景,通过现场工程地质调查,获取围岩结构面信息,并结合室内岩石力学试验,进行岩体质量分级和岩体参数估算;基于RMR和Q支护图表,确定采用“喷射混凝土+锚杆+钢筋网+双筋条”方法对研究区域进行支护;应用RS2和Unwedge软件分析巷道支护前后围岩塑性区、位移和潜在楔形体安全系数的变化特征。结果表明:巷道支护后,围岩塑性区和位移显著减小,潜在楔形体安全系数明显增大,提出的支护方案能够确保巷道稳定。由此可知,经验法与数值模拟法相结合的综合研究方法可以准确地分析巷道稳定性情况,并确定更可靠的支护方案,为矿山安全生产提供可靠保障。
王成龙 , 侯成录 , 杨尚欢 , 赵兴东 . 千米深井高应力破碎围岩控制技术[J]. 黄金科学技术, 2020 , 28(6) : 885 -893 . DOI: 10.11872/j.issn.1005-2518.2020.06.112
The deep mining has become an inevitable trend of the world’s metal deposit mining with the depletion of shallow metal mineral resources.The surrounding rocks in deep stopes and roadways are often in a complex stress environment of “three highs and one disturbance”.The surrounding rocks in deep roadways often suffer from collapsed,rock bursts and other damages,which causing ore loss and depletion,equipment damage and casualties,and seriously hindering the production of mines.The Sanshandao gold deposit is the earliest discovered large-scale gold deposit of altered rock in the broken zone.The structure faulted is the mainly faulted in the area.The Xinli fault zone located in the northeast of the Sanshandao-Cangshang fault zone is an ore-controlling faulted structure in the mining area.The rock mass in the fault zone is subject to strong weathering and tectonic movement.The cracks are very developed and the surrounding rock strength is low.The roof collapse often occured during tunneling.Therefore,it is necessary to take timely and effective support measures for deep high-stress fractured surrounding rocks.In this paper,the deep roadway of Sanshandao gold mine is used as the engineering background.Through field engineering geological surver,and the discontinuity information of surrounding rock at -1 005 m level in Sanshandao gold mine was obtained.The surrounding rock is mainly distributed with three sets of joints,and one set is nearly parallel to the axial direction of the roadway and the inclination angle is about 90°.The laboratory studies were carried out.Rock mass classfication were estimated,accordingly.Q=1.5,RMR=40.25,GSI=35.The quality of the rock mass is poor.Roclab software was used to estimate the mechanical parameters of the rock mass,and the compressive strength and tensile strength of the rock mass are 3.477 MPa and 0.003 MPa,respectively.The rock mass strength is low.Based on the support charts with RMR and Q,the shotcrete + anchor + reinforcement mesh + double bars support method was adopted in the study area.The RS2 and Unwedge software were used to analyze the change characteristics of surrounding rock plastic zone,displacement and potential wedge safety factor before and after roadway support.The results show that after the roadway is supported,the vertical displacement of the roadway roof is reduced from 2.2 cm to 0.76 cm.The plastic zone of the roadway roof is reduced from 4.481 m to 1.634 m,the leftwall plastic zone is reduced from 1.760 m to 0.859 m,and the rightwall plastic zone is reduced from 1.830 m to 0.860 m,the safety factor of the potential wedge of the roadway roof increased from 1.5 to 22.7.The plastic zone and displacement of the surrounding rock are significantly reduced,and the potential wedge safety factor is significantly increased.The proposed support scheme can ensure the stability of the roadway.Therefore,the comprehensive research method of combining the empirical method and numerical simulation can accurately to analyze the stability of the roadway and determine a more reliable support scheme.It provides a reliable guarantee for the mine safety production.
| 1 | 赵兴东.高应力破裂岩体条件下锚网支护研究[J].岩土力学,2006,10(增2):918-920. |
| 1 | Zhao Xingdong.Research on bolt-netting support under high streessed and fractured rockmass[J].Rock and Soil Mechanics,2006,10(Supp.2):918-920. |
| 2 | 赵兴东.超深竖井建设基础理论与发展趋势[J].金属矿山,2018(4):1-10. |
| 2 | Zhao Xingdong.Basic theory and development trends of ultra-deep shaft construction[J].Metal Mine,2018(4):1-10. |
| 3 | 李秋涛,赵兴东,张洪山,等.山东金青顶矿区深部高应力急倾斜矿体开采方法研究[J].采矿技术,2019,19(2):1-4. |
| 3 | Li Qiutao,Zhao Xingdong,Zhang Hongshan,et al.Study on mining method of deep high-stress steeply inclined ore body in Jinqingding mining area,Shandong Province[J].Mining Technology,2019,19(2):1-4. |
| 4 | Abdellah W,Raju G D,Mitri H S,et al.Stability of underground mine development intersections during the life of a mine plan[J].International Journal of Rock Mechanics and Mining Sciences,2014,72:173-181. |
| 5 | Read R S.20 years of excavation response studies at AECL\"s Underground Research Laboratory[J].International Journal of Rock Mechanics and Mining Sciences,2004,41(8):1251-1275. |
| 6 | 赵兴东,朱乾坤,赵一凡.板庙子金矿深部开采留设隔离矿柱控制地压数值优化[J].采矿技术,2019,19(1):61-66. |
| 6 | Zhao Xingdong,Zhu Qiankun,Zhao Yifan.Numerical optimization of controlling ground pressure with isolated pillar in deep mining of Banmiaozi gold mine[J].Mining Technology,2019,19(1):61-66 |
| 7 | 赵兴东,杨晓明,牛佳安,等.岩爆动力冲击作用下释能支护技术及其发展动态[J].采矿技术,2018,18(3):23-28. |
| 7 | Zhao Xingdong,Yang Xiaoming,Niu Jia’an,et al.Energy release support technology and development under rock burst dynamic impact[J].Mining Technology,2018,18(3):23-28. |
| 8 | Zhao H J,Ma F S,Zhang Y M,et al.Monitoring and mechanisms of ground deformation and ground fissures induced by cut-and-fill mining in the Jinchuan Mine 2,China[J].Environmental Earth Sciences,2013,68(7):1903-1911. |
| 9 | 李庶林.深井硬岩岩爆倾向性与岩层控制技术研究[D].沈阳:东北大学,2000. |
| 9 | Li Shulin.Study on Rockburst Tendency and Rock Control Technology of Hard Rock in Deep Shaft[D].Shenyang:Northeastern University,2000. |
| 10 | 侯朝炯.深部巷道围岩控制的关键技术研究[J].中国矿业大学学报,2017,46(5):970-978. |
| 10 | Hou Chaojiong.Key technologies for surrouding rock control in deep roadway[J].Journal of China University of Mining Technology,2017,46(5):970-978. |
| 11 | 侯朝炯.深部巷道围岩控制的有效途径[J].中国矿业大学学报,2017,46(3):467-473. |
| 11 | Hou Chaojiong.Effective approach for surrounding rock control in deep roadway[J].Journal of China University of Mining Technology,2017,46(3):467-473. |
| 12 | 柏建彪,侯朝炯.深部巷道围岩控制原理与应用研究[J].中国矿业大学学报,2006,35(2):145-148. |
| 12 | Bo Jianbiao,Hou Chaojiong.Control principle of surrounding rocks in deep roadway and its applicaiton[J].Journal of China University of Mining Technology,2006,35(2):145-148. |
| 13 | Wang X Y,Bai J B,Wang R F,et al.Bearing characteristics of coal pillars based on modified limit equilibrium theory[J].International Journal of Mining Science and Technology,2015,25(6):943-947. |
| 14 | 崔耀,张俊儒.硬质破碎岩体中隧道锚肋组合支护体系的构想[J].路基工程,2018(4):54-60. |
| 14 | Cui Yao,Zhang Junru.An idea for anchor and steel rib combined tunnel support system in hard broken surrounding rock[J].Subgrade Engineering,2018(4):54-60. |
| 15 | 徐青云,高明仕,谭云,等.深部厚松散层破碎围岩大巷支护参数优化研究[J].煤炭科学技术,2015,43(4):39-42,114. |
| 15 | Xu Qingyun,Gao Mingshi,Tan Yun,et al.Study on op-timized support parameters of mine roadway in broken surrounding rock of deep thick and unconsolidated strata[J].Coal Science and Technology,2015,43(4):39-42,114. |
| 16 | 郭建伟,刘泉声,杨战标,等.平顶山矿区深部大规模松软围岩巷道支护技术[J].岩石力学与工程学报,2012,31(增2):3904-3910. |
| 16 | Guo Jianwei,Liu Quansheng,Yang Zhanbiao,et al.Support technology to deep large-scale soft surrounding rock of roadway in Pingdingshan coal mine[J].Chinese Journal of Rock Mechanics and Engineering,2012,31(Supp.2):3904-3910. |
| 17 | Meng Q B,Han L J,Xiao Y,et al.Numerical simulation study of the failure evolution process and failure mode of surrounding rock in deep soft rock roadways[J].International Journal of Mining Science and Technology,2016,26(2):209-221. |
| 18 | 杨亚平,杨有林,穆玉生,等.金川矿区深部高应力破碎岩体巷道支护技术研究及应用[J].中国矿业,2018,27(11):99-103. |
| 18 | Yang Yaping,Yang Youlin,Mu Yunsheng,et al.Research and application of supporting technology of fracture rock roadway with high stress of deep ground in jinchuan mining area[J].China Mining Magazine,2018,27(11):99-103. |
| 19 | 袁亮,薛俊华,刘泉声,等.煤矿深部岩巷围岩控制理论与支护技术[J].煤炭学报,2011,36(4):535-543. |
| 19 | Yuan Liang,Xue Junhua,Liu Quansheng,et al.Control theory and supporting technology of deep rock roadway in coal mine [J].Journal of China Coal Society,2011,36(4):535-543. |
| 20 | Bieniawski Z T.Engineering Rock Mass Classifications:A Complete Manual for Engineers and Geologists in Mining,Civil and Petroleum Engineering[M].New York:John Wiley & Sons,1989. |
| 21 | Barton N,Lien R,Lunde J. Engineering classification of rock masses for the design of tunnel support[J].Rock Mechanics, 1974,6(4):189-239. |
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