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爆破载荷下隧道围岩破坏裂隙范围研究()

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《爆破器材》[ISSN:1001-8352/CN:32-1163/TJ]

卷:: 48
期数:: 2019年02

页码:: 51-56

栏目:: 爆破技术

出版日期:: 2019-04-02

文章信息/Info

Title:: Damage Fracture Range of Tunnel Surrounding Rock under Blasting Load

文章编号:: 5300

作者:: 费鸿禄; 苏强; 蒋安俊; 洪陈超; 辽宁工程技术大学爆破技术研究院（辽宁阜新，123000）

Author(s):: FEI Honglu; SU Qiang; JIANG Anjun; HONG Chenchao; Blasting Technology Research Institute, Liaoning Technical University (Liaoning Fuxin, 123000)

关键词:: 爆破载荷; 冲击波; 应力波; 爆生气体; 裂隙范围

Keywords:: blasting load; shock wave; stress waves; explosion gas; fracture range

分类号:: TD235

DOI:: 10.3969/j.issn.1001-8352.2019.02.010

文献标志码:: A

摘要:: 为确定爆破载荷作用下岩体的裂隙范围，应用摩尔-库伦强度准则确定岩石在冲击波作用下的粉碎区；在考虑粉碎区范围、应力波衰减指数改变和岩石三向受力状态的情况下,用Mises强度准则计算裂隙区范围；在不考虑爆生气体在应力波形成的裂隙区损失的前提下，用岩石的断裂韧性来计算爆生气体充满粉碎区后岩石裂隙的二次扩展范围。通过理论计算与现场声波实测值对比，理论计算值比实测值小8.45%。分析表明，该裂隙范围计算方法合理，并可以对类似工况的裂隙范围进行估算。

Abstract:: In order to determine the fracture scope of rock mass under blasting load, Mohr-Coulomb strength crite-rion was used to determine the rock crushing zone under shock wave action. Fracture zone was calculated by Mises strength criterion considering crushing zone, change of stress wave attenuation exponent and three-dimensional stress state of rock. The two expansion range of rock fissure after blasting gas was calculated by using the fracture toughness of rock without considering the loss of explosive gas in the fracture zone formed by the stress wave. By comparing theoretical calculation with measured acoustic wave data at the scene, the former is smaller than the latter 8.45%. Analysis shows that the method for calculating the fissure area is reasonable and can estimate the fracture scope in similar working conditions.

参考文献/References:

［1］冷振东, 卢文波, 陈明, 等.岩石钻孔爆破粉碎区计算模型的改进［J］. 爆炸与冲击, 2015, 35(1): 101-107.
?LENG Z D, LU W B, CHEN M, et al. Improved calculation model for the size of crushed zone around blasthole［J］. Explosion and Shock Waves，2015,35(1): 101-107.
［2］胡荣, 朱哲明, 胡哲源, 等.爆炸动载荷下裂纹扩展规律的实验研究［J］. 岩石力学与工程学报, 2013, 32(7): 1476-1481.
HU R, ZHU Z M, HU Z Y, et al. Experimental study of regularity of crack propagation under blasting dynamic loads ［J］. Chinese Journal of Rock Mechanics and Engineering, 2013, 32(7): 1476-1481.
［3］韩森, 张钦礼. 爆破对矿岩损伤规律试验研究［J］. 安全与环境学报, 2016, 16(3): 100-103.
HAN S, ZHANG Q L. Experimental study on the destructive regularity of the rock mass under the blasting load ［J］. Journal of Safety and Environment, 2016, 16(3): 100-103.
［4］林英松, 张宝康, 蒋金宝, 等.爆生气体作用下孔壁岩石开裂的机理及影响因素研究［J］. 石油钻探技术, 2008,36(3): 50-54.
LIN Y S, ZHANG B K, JIANG J B, et al. Mechanism and influencing factors on radial fractures cracking and propagation under exploding gas ［J］. Petroleum Drilling Techniques, 2008,36(3): 50-54.
［5］杨小林, 孙博, 褚怀保. 爆生气体在煤体爆破过程中的作用分析［J］. 金属矿山, 2011(11): 65-68.
?YANG X L, SUN B, CHU H B. Analysis on effect of detonation gas in the process of coal blasting ［J］. Metal Mine, 2011(11): 65-68.
［6］王文龙. 钻眼爆破［M］. 北京:煤炭工业出版社, 1984.
［7］杨永琦. 矿山爆破技术与安全［M］. 北京:煤炭工业出版社, 1991.
［8］熊海华, 卢文波, 李小联, 等. 龙滩水电站右岸导流洞开挖中爆破损伤范围研究［J］. 岩土力学, 2004,25(3): 432-436.
XIONG H H, LU W B, LI X L, et al. Study on blast-induced damage zone for excavation of diversion tunnel at right bank of Longtan Hydroelectric Project ［J］. Rock and Soil Mechanics, 2004,25(3): 432-436.
［9］戴俊. 柱状装药爆破的岩石压碎圈与裂隙圈计算［J］. 辽宁工程技术大学学报(自然科学版), 2001,20(2): 144-147.
DAI J. Calculation of radii of the broken and cracked areas in rock by a long charge explosion ［J］. Journal of Liaoning Technical University (Natural Science), 2001, 20(2): 144-147.
［10］杨善元. 岩石爆破动力学基础［M］. 北京:煤炭工业出版社, 1993.
［11］高金石, 张继春. 爆破破岩机理动力分析［J］. 金属矿山, 1989(9): 7-12,6.
［12］孙训方,方孝淑，关来春.材料力学(Ⅱ) ［M］.4版. 北京:高等教育出版社, 2002.
［13］宗琦. 岩石内爆炸应力波破裂区半径的计算［J］. 爆破, 1994(2): 15-17.
［14］宗琦. 爆生气体的准静态破岩特性［J］. 岩土力学, 1997(2): 73-78.
ZONG Q. Investigation on features of rock quasi-static fragmentation by gaseous explosion product ［J］. Rock and Soil Mechanics, 1997(2): 73-78.
［15］张玉明，贠永峰，张奇.切缝药包破岩机理及现场应用［J］. 爆破器材,2001,30(5):5-8.
?ZHANG Y M, YUN Y F, ZHANG Q.The slit-charge breaking rock mechanism and application［J］. Explosive Materials,2001,30(5):5-8.
［16］LANG L C. 最优延迟时间［J］. 宗琦，马芹永，译. 煤炭科技资料, 1991(3): 80-86.
［17］邱崇光. 用较准确的力学模型分析邻近炮孔成缝机理［J］. 爆破,1991(1): 11-13,19.
［18］刘军,孙辉.一种岩石I型断裂韧度KIC估算方法［J］.土木工程, 2018,7(1): 74-81.
LIU J, SUN H. An estimation method for mode I fracture toughness KIC of rocks ［J］. Journal of Civil Engineering,2018,7(1): 74-81.
［19］费鸿禄,赵春生,杨朝阳, 等.爆破荷载作用下隧道围岩损伤范围［J］. 工程爆破, 2017,23(6): 1-4.
FEI H L, ZHAO C S, YANG C Y, et al. Damage range of tunnel surrounding rock under blasting load ［J］. Engineering Blasting, 2017, 23(6): 1-4.
［20］哈努卡耶夫A H. 矿岩爆破的物理过程［M］. 刘殿中,译. 北京:冶金工业出版社, 1980.

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备注/Memo

备注/Memo:: 收稿日期：2018-09-27
第一作者：费鸿禄（1963－），男，博士，教授，博导，主要从事工程爆破、地下工程教学和科研工作。E-mail:feihonglu@163.com
通信作者：苏强（1992－），男，硕士，主要从事岩土工程爆破工程方面的研究。E-mail:41810186@qq.com

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