共查询到20条相似文献,搜索用时 156 毫秒
1.
在分析岩质边坡失稳过程中岩体力学性质和声发射产生的微观机理基础上,通过岩石声发射试验和岩质边坡声发射监测实例,研究了岩质边坡声发射特征,提出了岩质边坡失稳破坏的基本力学分类及其声发射的监测预报方法和判据,实现对岩质边坡失稳的预测预报。研究结果表明,边坡破坏前存在一次或多次声发射高峰。应用AE技术可以确定边坡在变形过程中应力集中活跃区;以抗滑力减小为主的岩质边坡,其失稳预报判据为大事件率在15次/ min以上,预报时间为几分钟至数小时。以下滑力增大为主的岩质边坡失稳的预报判据为大事件率在26次/ min以上,破坏时间为第一次声发射峰值期后的30~45 d。 相似文献
2.
多层软弱夹层边坡岩体破坏机制与稳定性研究 总被引:2,自引:0,他引:2
以大量的实际工程为基础,基于Sarma极限平衡法和有限元强度折减法探讨层状岩质边坡在不同岩层倾角θ、边坡坡角β、结构面间距h条件下的安全系数与破坏面位置的变化规律,揭示复杂多层软弱夹层边坡岩体的破坏机制及稳定性特征。结果表明:不同θ条件下边坡岩体失稳机制和破坏面位置不同,随着θ的增大,破坏机制表现为滑移破坏→滑劈破坏→崩塌破坏→倾倒破坏→滑移破坏;当β、h一定时,直立层状边坡的稳定性略大于水平层状边坡,反倾向边坡的稳定性明显大于顺层边坡;β直接影响边坡岩体破坏特征,当β由30°增大至60°时,顺层边坡的安全系数约降低53%;反倾向层状边坡的安全系数约降低40%;h对边坡岩体破坏机制的影响较小,但对稳定性的影响较大,建议工程实践中加强密集结构面岩质边坡的监测和加固工作。 相似文献
3.
4.
用数值方法对岩质高边坡进行稳定性分析时,描述岩体结构对的精细程度会影响分析结果,但常见的有限单元法程序仍难以对复杂节理岩体进行精细建模。为解决这一问题,将结构面网络模拟与离散单元法相结合,在UDEC软件中,利用FISH语言编写网络模拟程序,依据结构面统计资料和结构面分级,实现对复杂岩体结构的精细描述。以某大型水电工程边坡为例,在对岩体结构进行精细描述的基础上,采用离散元强度折减法对边坡进行稳定性分析。通过与极限平衡法和一般离散元结果的对比,表明基于复杂岩体结构精细描述确定的边坡潜在滑动面和安全系数是合理的,为复杂岩质边坡破坏模式和稳定性的分析提供了新的途径。 相似文献
5.
地震作用下水平层状岩质边坡累积损伤与破坏模式研究 总被引:1,自引:0,他引:1
研究边坡在反复地震作用下的累积损伤对于库区岩质边坡的长期稳定性分析具有重要意义。结合振动台试验与理论分析方法,对水平层状岩质边坡在反复地震作用下的累积损伤与破坏模式进行了深入研究。结果表明:采用混凝土疲劳裂纹扩展的双K准则可以很好地解释边坡的累积损伤曲线的变化趋势,完整的累积损伤演化曲线表现出初始损伤、细观裂纹扩展、宏观裂缝扩展3个阶段;分别采用三次多项式和幂指数建立了微小地震和强震作用下边坡岩体累积损伤演化模型并取得了良好的拟合效果,微小地震作用下边坡岩体累积损伤曲线表现出初期略微下降、中期线性增长、后期平缓增长的正"S"型的3段式特征,强震作用下边坡岩体累积损伤相比微震作用下有较为快速的增长,且在边坡破坏前增速加快。频发微震作用下,水平层状岩质边坡在坡体上部形成阶梯型破坏面并向坡面出露,在坡体下部形成平直的剪切破坏面,坡体最终的破坏面呈阶梯状。 相似文献
6.
碎裂结构岩质边坡是地质工程中遇到的一种最不稳定边坡,其原岩松弛,结构面普遍张开,围岩自稳能力差,碎裂结构岩体出露不连续,空间分布存在差异,导致边坡破坏边界不明显,变形破坏机制很难确定。本文以雅砻江楞古水电站碎裂结构岩质边坡为例,在地质环境调查和平硐勘测的基础上,系统研究了碎裂岩体结构特征,分析了控制边坡变形破坏的边界条件和变形破坏模式,并运用UDEC离散元程序模拟验证。研究结果表明:碎裂岩质边坡的变形破坏主要受自身结构及内部相对长大结构面控制,变形演化过程依循应力调整、时效变形和局部失稳3个阶段,变形破坏模式分为断层主控底滑型和裂隙切割破坏型。目前针对碎裂结构岩质边坡研究相对较少,缺乏大型工程实例支撑,该研究成果为水利工程中这类边坡的研究提供了参考。 相似文献
7.
通过三维激光扫描技术获取公路岩质高边坡岩体的结构面三维点云数据,采用C++开发编程得到插件程序对结构面进行自动识别,最终得到边坡岩体结构面地质图,为岩质边坡稳定性分析提供详实的地质资料,保证了边坡治理的可靠性和经济性,弥补了传统人工工程地质调绘时间周期长、精度低等不足,有很强的现实意义。 相似文献
8.
岩体声发射监测在马步坎高边坡岩体稳定研究中的应用 总被引:1,自引:0,他引:1
简要阐述岩体声发身监测的基本原理,监测仪器与技术,及其在金沙江向家坝水电站马步坎高边坡岩体稳定研究中的应用情况,认为岩体声发射监测是研究边坡岩体稳定性的一种有效手段。 相似文献
9.
现有公路(铁路)工程中的高陡岩质边坡,特别是风化作用强烈地区的岩质边坡,浅表层岩体多呈碎裂状。采用传统SNS主动防护网加固后,仍经常产生局部失稳、掉块等现象,部分甚至引起整体失稳。因此,针对破碎岩质边坡的加固防护迫切需要进行结构及其设计方法改进。本文提出一种锚墩式主动防护网新型组合结构及其受力计算和设计方法,可有效防止碎裂岩质边坡坡面破坏,同时保证边坡整体稳定。工程应用表明,该组合防护结构具有良好的破碎岩质边坡加固效果,值得在工程建设中推广应用。 相似文献
10.
露天矿高陡边坡稳定性研究现状及发展趋势 总被引:8,自引:0,他引:8
在收集整理国内外相关资料的基础上,从边坡稳定性分析方法、边坡监测、预测预报方法等方面总结了目前边坡稳定性研究方法及预测预报研究现状,分析露天矿边坡的工程特点,指出当前露天矿边坡稳定性研究存在的问题,提出“边坡岩体渐进损伤破坏是边坡岩体失稳前兆本质特征”这一学术思路,认为边坡稳定性及预测预报研究发展趋势为建立基于微震监测信息反演的边坡岩体内部损伤演化模型,提出露天矿边坡岩体强度参数识别表征方法和动态稳定性评价方法,寻求边坡失稳过程岩体内部“空间”损伤劣化的微震活动性、强度弱化与边坡动态失稳之间的联系,以微震前兆信息和边坡岩体强度储备系数为失稳判据,实现露天矿边坡稳定性动态分析预测 相似文献
11.
《Comptes Rendus Geoscience》2014,346(9-10):223-232
Landslide is considered as one of the major natural hazards that cause enormous social and economic losses. Some techniques have been introduced to monitor the stability of slopes, such as the global positioning system (GPS), the geographic information system (GIS), aerial photography, and inclinometers. Each one of these offers advantages against others, but at the same time also possesses different limitations. Acoustic emission (AE) has recently been recognized as one of the feasible techniques to monitor soil slope. This article addresses issues involved in application of AE techniques for soil slope monitoring. If it is properly instrumented, AE could provide effective solutions for detecting early activities related to landslide development and giving early warning to such failures. 相似文献
12.
露天矿边坡自动监测系统的开发与应用 总被引:4,自引:0,他引:4
测量机器人(即自动电子全站仪)固然可以对露天矿边坡进行自动化(或半自动化)外部形变监测。但测量机器人设站处(监测基点)的稳定性对监测精度的影响非常大。并且当测量视线被遮挡后测量机器人将无法监测相应的形变点。为了解决上述问题,笔者及科研组将GPS技术与测量机器人技术有机结合,开发出了露天矿边坡智能可动式自动监测系统。该系统彻底解决了监测基站不稳定对监测结果的影响问题,使监测的程序得以简化、监测的固定性投资成本得以降低。文章介绍了露天矿边坡智能可动式自动监测系统的结构、工作原理,给出了监测实例。以实际监测数据为依据,提出了露天矿边坡预警的基本准则。 相似文献
13.
文章以金沙江下游乌东德水电站坝区右岸水垫塘高陡边坡为例,系统探索了高度超过500 m的高陡边坡地质灾害调查识别与监测预警技术。针对常规方法难以准确捕捉高陡边坡危岩体变形破坏特征这一问题,创新采用了"登山攀岩速降技术与地质调查、工程地质测绘相结合"的方法,在乌东德水电站坝区水垫塘高陡边坡共调查识别了178个危岩体。在此基础上,通过构建分布式光纤应变实时监测系统和具有明显裂缝的危岩体布设拉绳位移传感器,实现了高陡边坡危岩体形变的实时监测,监测结果与实际危岩体变形一致。此外,在高程580~1600 m的坡体上还布设了6个地震动监测台站,捕捉到了包括2016年12月8日乌东德地震和2017年3月12日的鲁甸地震在内的大量地震加速度数据,并以此分析了乌东德地震波作用下的岩体动力响应特征,结果显示该边坡处于基本稳定状态。上述研究思路和方法对西南水电站高陡边坡稳定性监测预警和风险评估具有借鉴意义。 相似文献
14.
A micromechanical model is proposed for studying the stability and failure process of slopes based on the gravity increase method (GIM). In this numerical model the heterogeneity of rock at a mesoscopic level is considered by assuming that the material properties conform to the Weibull distribution. Elastic damage mechanics is a method used for describing the constitutive law of the meso-level element, the finite element method (FEM) is employed as the basic stress analysis tool, and the maximum tensile strain criterion and the Mohr–Coulomb criterion are utilised as the damage threshold. The numerical model is implemented into the Realistic Failure Process Analysis (RFPA) code using finite element programming, and an extended version of RFPA, i.e., RFPA-GIM, is developed to analyse the failure process and stability of slopes. In the numerical modelling with RFPA-GIM, the critical failure surface of slopes is obtained by increasing the gravity gradually but keeping material properties constant. The acoustic emission (AE) event rate is employed as the criterion for slope failure. The salient feature of the RFPA-GIM in stability analysis of slopes is that the critical failure surface as well as the safety factor can be obtained without any presumption for the shape and location of the failure surface. Several numerical tests have been conducted to demonstrate the feasibility of RFPA-GIM. Numerical results agree well with experimental results and those predicted using the FEM strength reduction method and conventional limit equilibrium analysis. Furthermore it is shown that selection of the AE rate as the criterion for slope failure is reasonable and effective. Finally, the RFPA-GIM is applied to several more complex cases, including slopes in jointed rock masses and layered rock formations. The results indicate that the RFPA-GIM is capable of capturing the mechanism of slope failure and has the potential for application in a larger range of geo-engineering. 相似文献
15.
高陡边坡变形及其对坝体安全稳定的影响,是高山峡谷型流域水利工程施工建设与安全运行所普遍面临的重要科学问题。一是高陡边坡稳定性研究,通过坝体两岸高陡边坡变形监测理论和方法研究,为实现动态反馈提供可靠的分析数据,再评价高陡边坡安全稳定性。二是高陡边坡变形对坝体安全稳定影响研究,通过分析岸坡与坝体间的相互作用,明确高陡边坡变形对坝体安全稳定的影响机制、作用范围和作用程度。在总结上述研究内容进展的基础上,归纳了本研究方向亟需解决的4个关键科学问题:时变监控方法、高精度数值仿真、智能优化反分析、边坡对坝体影响的理论计算方法,认为应进一步开展高陡边坡与坝体间相互影响机制及加固措施研究,为高陡边坡变形及其对坝体安全稳定影响研究提供思路。 相似文献
16.
The Dynamic Evaluation of Rock Slope Stability Considering the Effects of Microseismic Damage 总被引:1,自引:1,他引:0
N. W. Xu F. Dai Z. Z. Liang Z. Zhou C. Sha C. A. Tang 《Rock Mechanics and Rock Engineering》2014,47(2):621-642
A state-of-the-art microseismic monitoring system has been implemented at the left bank slope of the Jinping first stage hydropower station since June 2009. The main objectives are to ensure slope safety under continuous excavation at the left slope, and, very recently, the safety of the concrete arch dam. The safety of the excavated slope is investigated through the development of fast and accurate real-time event location techniques aimed at assessing the evolution and migration of the seismic activity, as well as through the development of prediction capabilities for rock slope instability. Myriads of seismic events at the slope have been recorded by the microseismic monitoring system. Regions of damaged rock mass have been identified and delineated on the basis of the tempo-spatial distribution analysis of microseismic activity during the periods of excavation and consolidation grouting. However, how to effectively utilize the abundant microseismic data in order to quantify the stability of the slope remains a challenge. In this paper, a rock mass damage evolutional model based on microseismic data is proposed, combined with a 3D finite element method (FEM) model for feedback analysis of the left bank slope stability. The model elements with microseismic damage are interrogated and the deteriorated mechanical parameters determined accordingly. The relationship between microseismic activities induced by rock mass damage during slope instability, strength degradation, and dynamic instability of the slope are explored, and the slope stability is quantitatively evaluated. The results indicate that a constitutive relation considering microseismic damage is concordant with the simulation results and the influence of rock mass damage can be allowed for its feedback analysis of 3D slope stability. In addition, the safety coefficient of the rock slope considering microseismic damage is reduced by a value of 0.11, in comparison to the virgin rock slope model. Our results demonstrate that microseismic activity induced by construction disturbance only slightly affects the stability of the slope. The proposed feedback analysis technique provides a novel method for dynamically assessing rock slope stability and can be used to assess the slope stability of other similar rock slopes. 相似文献
17.
In order to define adequate prevention measures and to manage landslide emergencies, real-time monitoring is required. This
paper presents two different applications of the remote sensing technique: the ground-based synthetic aperture radar interferometry,
here proposed as a monitoring and early warning support for slope instability. Data acquisitions carried out through a ground-based
synthetic aperture radar interferometer, operating in Ku band, installed in front of the observed slopes, are discussed. Two case studies, based on the use of the same apparatus
(formerly developed by the Joint Research Center of the European Commission and by Ellegi-LiSALab srl), are reported: the
first one concerns the monitoring of a large landslide, named Ruinon (Valfurva, Italy). The second one deals with the monitoring
of the NW unstable slope in the Stromboli island aimed to implementing an early warning system. Acquired interferometric data
are processed to provide displacements and velocity maps of the monitored area. The monitoring services ongoing on the Ruinon
landslide and on Stromboli demonstrate the capability of this technique to operate in different operative settings (i.e.,
different phenomena and geological framework) and for different aims (monitoring for prevention, early warning, and emergency
assessment). This methodology has also been proved by national and regional authorities of civil protection in order to provide
a real-time monitoring for emergency management. 相似文献
18.
19.
Nan Jiang Chuanbo Zhou Shiwei Lu Zhen Zhang 《Geotechnical and Geological Engineering》2018,36(3):1475-1489
Investigating the propagation and attenuation of blast vibration in rock slopes is the key point to assess the influence of underground mine blasting on overlaying open pit slopes stability and determining the potential risk. In this paper, Daye Iron Mine in China has been chosen as the case to study the effect of blast vibrations on overlaying open pit slopes due to underground mine blast. Firstly, the characteristics of blast loadings are analyzed by the dynamic finite element method. Then, a three dimensional (3D) numerical model of the open pit and the underground mine is made, which is verified by the field monitoring data to prove its reliability. The effect of blast vibration on overlaying open pit slope due to underground mine blasting are discussed based on the peak particle velocity (PPV) and the peak effective tensile stress (PETS) distribution characteristics which are calculated and analyzed by inputting the obtained blast vibration data into the numerical model. The results show that the effect of present mining blasting on the stability of pit slopes are limited because the simulated maximum PPV and PETS of monitoring point on slopes are all < 0.747 cm/s and 0.738 MPa. At last, according to numerical simulations of the underground mine blasting, the PPV predicting formulas for the slopes in Daye Open Pit Iron Mine is proposed based on the classic Sadaovsk formula. 相似文献
20.
重庆某不稳定斜坡变形监测及稳定性分析 总被引:2,自引:0,他引:2
位于重庆市区的某不稳定斜坡, 其变形区范围内拟进行大规模基坑开挖, 为保证安全施工, 必须准确评价斜坡的稳定性.在现场调查、归纳地质环境条件的基础上, 对不稳定斜坡进行变形监测, 研究斜坡变形特征; 采用FLAC-3D有限差分软件进行数值模拟分析, 将结果与实际变形监测曲线进行对比、拟合, 得到监测点的位移情况, 从而准确了解不稳定斜坡的变形情况; 最后基于极限平衡法和FLAC-3D强度折减法对不稳定斜坡天然状况以及基坑开挖工况下的稳定性进行评价. 相似文献