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| NUMERICAL TEST INVESTIGATION ON UNLOADING ROCKBURST PROCESSES |
| HUANG Zhiping1,2,TANG Chun?an1,MA Tianhui3,TANG Liexian4 |
(1. Center for Rock Instability and Seismicity Research,Northeastern University,Shenyang,Liaoning 110004,China;2. School
of Civil Engineering,Shenyang Jianzhu University,Shenyang,Liaoning 110168,China;3. School of Civil Engineering,Dalian University of Technology,Dalian,Liaoning 116024,China;4. Dalian Mechsoft Co.,Ltd.,Dalian,Liaoning 116000,China) |
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Abstract In order to explore the mechanism of rockburst induced by unloading,the process of instability failure under unloading is exhibited by rock failure process analysis software(RFPA2D). Taking the example of basic mechanical parameters of the granite,firstly,the two-dimensional numerical test of uniaxial loading failure for the square numerical specimen is simulated;and then,for the same specimen,the surrounding rock unloading test under the condition of bidirectional load is simulated. The numerical test results show that:(1) There is a large differences on the rock failure mechanisms and failure modes between the uniaxial loading test and unloading instability test. (2) The progressive microcracks propagation is dominant in failure process of uniaxial loading test;and the microcracks concentrate on the local fracture plane. Before the main fractures induced,Acoustic emission(AE) phenomenon which is the omen of many microruptures appears;and it is the typical rockburst mode of instability induced by the progressive failure. (3) The brittle characteristic during the rock unloading failure in the biaxial test under confining pressure is more evident. The unloading failure is mainly released by sudden,high energy density. At the same time,it shows intense dilatation failure characteristics along the unloading direction;and the failure mode is large-area shear fracture combined with local tension fracture. On the contrary to the uniaxial loading,there is nearly no omen of any microfracture before the main fracture;and it is the typical failure mode of transient rockburst.
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Received: 25 June 2010
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| [1] 唐宝庆,曹 平. 岩爆研究现状的分析[J]. 湖南有色金属,1996,12(1):7–10.(TANG Baoqing,CAO Ping. Analysis of research status on rockburst[J]. Hunan Nonferrous Metal,1996,12(1):7–10.(in Chinese))
[2] 刘卫东,李角群,李 磊. 岩爆研究现状综述[J]. 黄金,2009,31(1):26–28.(LIU Weidong,LI Jiaoqun,LI Lei. Review of research status on rockburst[J]. Gold,2009,31(1):26–28.(in Chinese))
[3] 张镜剑. 水电建设中的一些岩石力学问题[J]. 岩石力学与工程学报,1991,10(2):169–177.(ZHANG Jingjian. Some rock mechanics problems in construction of hydropower station[J]. Chinese Journal of Rock Mechanics and Engineering,1991,10(2):169–177.(in Chinese))
[4] NOTLEY K R. Interim report on closure measurements and associated rock mechanics studies in the falconbridge mine[R]. [S.l.]:[s. n.],1966.
[5] BARDET J P. Finite element analysis of rockburst as surface instability[J]. Computers and Geotechnics,1989,8(3):177–193.
[6] VARDOULAKIS I. Rockburst as a surface instability phenomenon[J]. International Journal of Rock Mechanics and Mining Sciences and Geomechanics Abstracts,1984,21(3):137–144.
[7] 唐春安. 岩石的破裂、失稳及岩爆[C]// 王思敬,杨志法,傅冰骏编. 中国岩石力学与工程世纪成就. 南京:河海大学出版社,2004:324–335.(TANG Chun?an. Fracture,instability and rockburst of rocks[C]// WANG Sijing,YANG Zhifa,FU Bingjun ed. Centurial Achievement of Rock Mechanics and Engineering in China. Nanjing:Hohai University Press,2004:324–335.(in Chinese))
[8] 谢和平. 岩爆的分形特征及机制[J]. 岩石力学与工程学报,1993,12(1):28–37.(XIE Heping. Fractal characteristics and mechanism of rocks[J]. Chinese Journal of Rock Mechanics and Engineering,1993,12(1):28–37.(in Chinese))
[9] 谭以安. 模糊数学综合评判在地下洞室岩爆预测中的应用[C]// 第二次全国岩石力学与工程学术会议论文集. 北京:知识出版社,1989:247–253.(TAN Yi?an. Application of comprehensive assessment using fussy mathematics to rockburst prediction in underground caverns[C]// Proceedings of the 2nd National Congress of Chinese Society for Rock Mechanics and Engineering. Beijing:Knowledge Press,1989:247–253.(in Chinese))
[10] 吴其斌. 微重力方法在岩爆预测中的应用[J]. 地球物理学进展,1993,8(3):136–142.(WU Qibin. Application of microgravity method on rockburst forecasting[J]. Progress in Geophysics,1993,8(3):136–142.(in Chinese))
[11] 黄 锋,徐则民. 用动光弹方法研究隧道岩爆的爆破扰动机制[J]. 爆炸与冲击,2009,29(6):632–636.(HUANG Feng,XU Zemin. On blasting perturbation mechanism of rock burst in tunnel by dynamic photo-elasticity[J]. Explosion and Shock Waves,2009,29(6):632–636.(in Chinese))
[12] 何满潮,苗金丽,李德建. 深部花岗岩试样岩爆过程实验研究[J]. 岩石力学与工程学报,2007,26(5):865–876.(HE Manchao,MIAO Jinli,LI Dejian. Experimental study on rockburst process of granite specimen at great depth[J]. Chinese Journal of Rock Mechanics and Engineering,2007,26(5):865–876.(in Chinese))
[13] 陈忠辉,傅宇方,唐春安. 岩石破裂声发射过程的围压效应[J]. 岩石力学与工程学报,1997,16(1):65–70.(CHEN Zhonghui,FU Yufang,TANG Chun?an. Confining pressure effect on acoustic emissions during rock failure[J]. Chinese Journal of Rock Mechanics and Engineering,1997,16(1):65–70.(in Chinese))
[14] 梁正召,唐春安,黄明利,等. 岩石破裂过程中声发射模式的数值模拟[J]. 东北大学学报:自然科学版,2002,23(10):1 008–1 011. (LIANG Zhengzhao,TANG Chun?an,HUANG Mingli,et al. Numerical simulation of patterns of acoustic emission in rock failure process[J]. Journal of Northeastern University:Natural Science,2002,23(10):1 008–1 011.(in Chinese))
[15] 朱万成,唐春安,杨天鸿,等. 岩石破裂过程分析(RFPA2D)系统的细观单元本构关系及验证[J]. 岩石力学与工程学报,2003,22(1):24–29.(ZHU Wancheng,TANG Chun?an,YANG Tianhong,et al. Constitutive relationship of mesoscopic elements used in RFPA2D and its validations[J]. Chinese Journal of Rock Mechanics and Engineering,2003,22(1):24–29.(in Chinese))
[16] ZHU W C,TANG C A. Numerical simulation on shear fracture process of concrete using mesoscopic mechanical model[J]. Constructions and Building Materials,2002,16(8):453–463.
[17] 王瑞红,李建林,蒋昱州,等. 开挖卸荷对砂岩力学特性影响试验研究[J]. 岩土力学,2010,31(增1):156–162.(WANG Ruihong,LI Jianlin,JIANG Yuzhou,et al. Experimental study of influence of excavation unloading on mechanical properties of sandstone[J]. Rock and Soil Mechanics,2010,31(Supp.1):156–162.(in Chinese)) |
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2011, Vol. 30 
