摘要
白鹤滩水电站左岸边坡高陡,应力条件复杂,存在LS_(331)、LS_(337)、LS_(3319)层内错动带,F17断层等软弱结构面,施工期和运营期安全问题十分突出。为评价其左岸边坡开挖稳定性,利用微震监测系统对边坡微震活动进行实时监测,并分析微震活动的时空以及震级分布,揭示岩质边坡开挖扰动下的微震活动特性及其施工响应特征。结果表明:开挖强度越大,边坡损伤越大,微震活动越活跃;爆破后0.5h内应力急剧调整,微震活动频繁;震级分布在-1.6~0.4之间,爆破开挖诱发大量震级小能量低的微震事件,诱发边坡的渐进损伤;软弱结构面是微震事件的主要活动区域,具有发生破坏变形的可能性;左岸边坡岩石破裂以复合型破坏和剪切破坏为主,伴随少量拉伸破坏。该研究可为工程后续开挖和支护提供参考,为同类微震活动特性分析提供一定的借鉴。
The stability of the left bank slope at Baihetan Hydropower Station is remarkable due to its cracks and fault such as LS331,LS337,LS3319 and F17,which result in complex stress.A micro-seismic monitoring system was established to monitor and analyze the micro-seismicity to evaluate the stability of the left bank.Through analyzing the spatio-temporal and micro-seismic magnitude distribution of micro-seismic activities,the characteristics of micro-seismicity and response of construction were revealed.The result shows that:the fiercer the excavation was,the more damage to the slope was caused,and the more active the micro-seismicity is;the stress adjusted drastically and the micro-seismic activities was within half an hour after blasting;the blasting excavation induces numerous micro-seismic event,which is small magnitude and with a little energy,causes damage to slope step by step;the micro-seismic events mainly spread in the weak structures planes which shows that the weak structure are the dangerous areas;most rock failures are in form of compound fracture and shear fracture.This research provides significant references for later excavation and supports to Baihetan left bank slope,and better understandings will be obtained for other characteristics of micro-seismic activity.
作者
胡中华
徐奴文
戴峰
李昂
张敏
蒋雄
HU Zhonghua;XU Nuwen;DAI Feng;LI Ang;ZHANG Min;JIANG Xiong(State Key Laboratory of Hydraulics and Mountain River Engineering, Sichuan University, Chengdu 610065, China)
出处
《防灾减灾工程学报》
CSCD
北大核心
2017年第5期769-775,共7页
Journal of Disaster Prevention and Mitigation Engineering
基金
国家自然科学基金面上项目(51679158)
国家重点基础研究发展计划(973计划)项目(2015CB057903)资助
关键词
白鹤滩水电站
岩质边坡
微震监测
爆破开挖
软弱结构面
Baihetan Hydropower Station
rock slope
micro-seismic monitoring
blasting excavation
weak geological structure