岩石力学与工程学报
巖石力學與工程學報
암석역학여공정학보
CHINESE JOURNAL OF ROCK MECHANICS AND ENGINEERING
2013年
10期
1973-1980
,共8页
岩石力学%地应力测量%岩爆预测%能量积聚%地震学
巖石力學%地應力測量%巖爆預測%能量積聚%地震學
암석역학%지응력측량%암폭예측%능량적취%지진학
rock mechanics%in-situ stress measurement%prediction of rockburst%energy accumulation%seismology
高地应力诱发的岩爆灾害是目前深部地下工程经常遇到的工程地质问题。现场地应力测量是岩爆预测的重要前提,根据三山岛金矿深部测量和岩体赋存状况的特点,优化应力解除测量技术并在矿区深部进行现场实测。提出采场岩爆发生的2个必要条件,即岩石具备储备高应变能的特性和采场具备高应变能积聚的应力环境。基于地应力实测与岩石力学室内试验结果,采用多准则判据对矿区深部发生岩爆的倾向性做出定性分析与评价。FLAC3D数值模拟分析揭示深部开采引起的采场围岩能量积聚、分布状况及变化规律。首次采用地震学的知识,对三山岛金矿未来深部开采过程中可能诱发岩爆的地点和级别做出预测。研究成果为深部地下工程岩爆的预测、预报提供新的思路和途径。
高地應力誘髮的巖爆災害是目前深部地下工程經常遇到的工程地質問題。現場地應力測量是巖爆預測的重要前提,根據三山島金礦深部測量和巖體賦存狀況的特點,優化應力解除測量技術併在礦區深部進行現場實測。提齣採場巖爆髮生的2箇必要條件,即巖石具備儲備高應變能的特性和採場具備高應變能積聚的應力環境。基于地應力實測與巖石力學室內試驗結果,採用多準則判據對礦區深部髮生巖爆的傾嚮性做齣定性分析與評價。FLAC3D數值模擬分析揭示深部開採引起的採場圍巖能量積聚、分佈狀況及變化規律。首次採用地震學的知識,對三山島金礦未來深部開採過程中可能誘髮巖爆的地點和級彆做齣預測。研究成果為深部地下工程巖爆的預測、預報提供新的思路和途徑。
고지응력유발적암폭재해시목전심부지하공정경상우도적공정지질문제。현장지응력측량시암폭예측적중요전제,근거삼산도금광심부측량화암체부존상황적특점,우화응력해제측량기술병재광구심부진행현장실측。제출채장암폭발생적2개필요조건,즉암석구비저비고응변능적특성화채장구비고응변능적취적응력배경。기우지응력실측여암석역학실내시험결과,채용다준칙판거대광구심부발생암폭적경향성주출정성분석여평개。FLAC3D수치모의분석게시심부개채인기적채장위암능량적취、분포상황급변화규률。수차채용지진학적지식,대삼산도금광미래심부개채과정중가능유발암폭적지점화급별주출예측。연구성과위심부지하공정암폭적예측、예보제공신적사로화도경。
Rockburst is a common engineering-geological problem in deep underground engineering. In-situ stress measurement is an important premise for prediction of rockburst. According to the requirement of deep measurement and burying condition of rockmass in Sanshandao gold mine,overcoring technique is improved and in-situ measurement is carried out in deep mining area. Rock with capacity of storing strong strain energy and stress environment to cause high energy accumulation,as two necessary conditions for rockburst,are proposed. Based on the results of in-situ stress measurement and rock mechanical test,qualitative analysis of rockburst prediction is accomplished using the multiple criteria. The distribution and variation law of rockmass energy accumulation caused by deep mining are revealed by FLAC3D simulation. With the help of seismology method,location and intensity of rockburst during future mining process in Sanshandao gold mine are predicted. The study results provide a new approach for rockburst prediction in deep underground engineering.
