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1.
The excavated height of the left bank slope of the diversion power system intake in Jinchuan hydropower station is about 16o m. The stability and safety of the slope during construction and its operation/utilization become one of the most important geological engineering problems. At the same time, it is also crucial to select a safe and economic excavation gradient for the construction. We studied the problem of how to select a safe and economic slope ratio by analyzing the geological condition of the high slope, including the lithology, slope structure, structural surface and their combinations, rock weathering and unloading, hydrology, and the natural gradient. The study results showed that the use of an excavation gradient larger than the gradient observed during site investigation and the gradient recommended in standards and field practice manuals is feasible. Then, we used the finite element method and rigid limit equilibrium method to evaluate the stability of the excavation slope under natural, rainstorm and earthquake conditions. The calculated results showed that the excavated slope only has limited failure, but its stability is greatly satisfactory. The research findings can be useful in excavation and slope stabilization projects. 相似文献
2.
西岭金矿床位于三山岛金矿床深部,是目前我国勘查深度最大的矿床,随着矿床勘探开发深入,已有评价结果已无法满足深部矿体勘探开发要求。本文通过三侧向电阻率、密度和声波测井成果,结合钻孔工程地质编录、岩石物理力学性质样品测试,研究矿床深部工程地质条件。通过自然电位、三侧向电阻率和井径测井成果,结合钻孔水文地质工程地质编录,研究矿床水文地质条件。应用井温、自然伽马测井技术,结合深井实验室资料,研究矿床开采可能引起的热害、放射性伤害及冲击地压与岩爆等井下灾害等环境地质条件。总结了矿床深部的开采技术条件变化规律,为深井开采和热防护工程提供可靠的技术参数和技术指导。 相似文献
3.
The right-bank slope of the Dagangshan hydropower station located in Southwest China is a highly unloaded rock slope. Moreover, large-scale natural faults were detected in the slope body; some excavation-induced unloading fractures were discovered at elevations between 1075m and 1146m. Because of poor tectonic stability, the excavation work was suspended in September 2009, and six largescale anti-shear galleries were employed to replace the weak zone in the slope body to reinforce the rightbank slope. In this study, based on microseismicmonitoring technology and a numerical-simulation method, the stabilities of the slope with and without the reinforcement are analysed. An in-situ microseismic-monitoring system is used to obtain quantitative information about the damage location, extent, energy, and magnitude of the rocks. Thus, any potential sliding block in the right-bank slope can be identified. By incorporating the numerical results along with the microseismic-monitoring data, the stress concentration is found to largely occur around the anti-shear galleries, and the seismic deformation near the anti-shear galleries is apparent, particularly at elevations of 1210, 1180, 1150, and 1120m. To understand the interaction mechanism between the anti-shear gallery and the surrounding rock, a 2D simulation of the potential damage process occurring in an anti-shear gallery is performed. The numerical simulation helps in obtaining additional information about the stress distribution and failure-induced stress re-distribution in the vicinity of the anti-shear galleries that cannot be directly observed in the field. Finally, the potential sliding surface of the right-bank slope is numerically obtained, which generally agrees with the spatial distribution of the in-situ monitored microseismic events. The safety factor of the slope reinforced with the anti-shear gallery increases by approximately 36.2%. Both the numerical results and microseismic data show that the anti-shear galleries have a good reinforcement effect. 相似文献
4.
在持续降雨或开挖卸荷作用下, 土体的强度指标会发生劣化, 但现今采用的边坡稳定性计算大多直接将其视为一个常数。为接近真实的边坡失稳破坏模式, 基于瑞典条分法以及一阶线性应变软化机制, 提出了一种边坡渐进破坏分析新方法, 推导出应变软化型边坡极限平衡表达式, 并获得了各破坏进度下边坡的安全系数。通过对模拟算例进行分析, 证明了条分-软化法的可靠性, 且计算结果表明渐进破坏过程中安全系数不仅取决于边坡的破坏方式与强度参数, 还与岩土体的软化模量密切相关。同时, 通过与滑坡实际案例的对比验算, 证实其强度指标存在不同的衰减系数, 即黏聚力的衰减系数大于摩擦角。从理论到应用, 最终获得的条分-软化法, 不仅考虑了岩土体的强度劣化效应以及滑动面的渐进发展, 还能有效地服务于实际工程背景下边坡的稳定性分析, 可以为滑坡的预防与治理提供指导建议。 相似文献
5.
Deformation and failure mechanism of phyllite under the effects of THM coupling and unloading 总被引:1,自引:0,他引:1
Although the study of TM(Thermo Mechanics),HM(Hydraulic-Mechanics) and THM(Thermo-Hydraulic-Mechanics) coupling under a loading test have been under development,rock failure analysis under THM coupling and unloading is an emerging topic.Based on a high temperature triaxial unloading seep test for phyllite,this paper discusses the deformation and failure mechanism of phyllites under the "H M,T→H,T→M" incomplete coupling model with unloading conditions.The results indicate that the elastic modulus and initial permeability decrease and the Poisson’s ratio increases with increasing temperature;the elastic modulus decreases and the Poisson’s ratio and initial permeability increase with increasing water pressure.During the unloading process,rock penetrability is small at the initial elastic deformation phase,but the penetrability increases near the end of the elastic deformation phase;mechanisms involving temperature and water pressure affect penetrability differently.Phyllite failure occurs from the initial thermal damage of the rock materials,splitting and softening(which is caused by pore water pressure),and the pressure difference which is formed from the loading axial pressure and unloading confining pressure.The phyllite failure mechanism is a transtensional(tension-shearing) failure. 相似文献
6.
《山地科学学报》2020,(6)
Slope failure due to improper excavation is one of common engineering disasters in China. To explore the failure mechanism of soil slope induced by toe excavation, especially to investigate the influence of excavation unloading path and rate on slope stability, a numerical slope model was built via particle flow code PFC2 D. The development of crack and strain during excavation were obtained and used to evaluate the deformation characteristics.Furthermore, excavation types representing different unloading paths and rates were compared in terms of crack number and strain level. Results indicate that crack number and strain level induced by horizontal column excavation are much greater than those of vertical column excavation and oblique excavation.The crack number and strain level increase with excavation unloading rate. Besides, the feasibility of taking the average strain of slope surface and the average value of maximum strain along monitoring lines to represent the global deformation characteristics were discussed. This study can provide a theoretical guidance for slope monitoring and preliminary optimal selection of excavation scheme in the design and construction of slope engineering. 相似文献
7.
By using numerical analysis methods to simulate the deep excavation, a lot of analyses are established on the basis of two-dimensional plane strain, ignoring the fact that foundation pit possesses three dimensions. For soil constitutive relation, people always take linear and nonlinear model, without considering the plastic behavior of soil. Using plastic-elastic hardening model to simulate constitutive relation of soil characteristics, the authors carried out mechanical analysis for pit excavation and support. The results show that the analysis for the stress state of pile anchor system is an effective way which provides theoretical basis for calculation of soil displacement. 相似文献
8.
总结分析了隧道破碎围岩的力学特性,结合隧道开挖支护施工中容易出现的问题和工作经验,提出了破碎围岩条件下隧道开挖和支护方案的改进意见,以期对同类条件下隧道的施工有借鉴和帮助。 相似文献
9.
顶管施工因非开挖或少开挖而在城市建设中应用广泛, 但顶管施工引起的地表沉降不容忽视。依托佛山市某电力隧道顶管工程, 通过现场实测、数值模拟及Peck经验公式的方法研究了顶管施工引起的地表沉降规律, 探讨了管-土摩擦、注浆压力及支护压力对地表沉降的影响。结果表明: 顶管施工引起的横向地表沉降在距轴线约4倍管径范围内变化较大, 管-土摩擦的改变对横向地表距轴线约3倍管径范围内的地表沉降影响较大, 对纵向地表距开挖面约1倍管径范围内的地表沉降影响较小; 注浆压力的增大能够抑制地表沉降; 支护压力的改变对横向地表距轴线约2倍管径范围内的地表沉降影响较大。研究结果可为控制顶管施工引起地表沉降措施的制定提供参考; 同时, 实测值、模拟值及Peck经验公式所得到的地表沉降变化趋势和大小相近, 验证了数值模拟及Peck经验公式在实际工程中预测地表沉降的可行性。 相似文献
10.
PS测井技术是地震勘探方法之一,也是一种简便、快速、准确的原位测试技术。该文介绍了单孔法PS测井的原理及其在铁路工程勘察中的应用,主要包括根据等效剪切波,进行建筑抗震场地类别划分,铁路工程抗震场地类别划分。根据岩土动力学参数,达到评价岩体质量和划分围岩类别目的,利用剪切波速法估算岩土的承载力基本值。通过青岛机场隧道场地的工程实例说明了PS测井技术在岩土工程勘察设计中的应用情况及应用效果。 相似文献
11.
Rock mass unloading is an important rock engineering problem because unloading may impact the stability of a rock mass slope. Based on hydroelectric engineering principles, this study focuses on the classification of unloading zones to reflect the rock mass structure characteristics. Geological background and slope structure of the study region were considered to investigate the distribution and deformation of the unloading process. Quantitative indices were classified according to the formation mechanisms and the geological exhibition of unloading zones. The P-wave velocity (V P ), the ratio of the wave velocity (K V , the ratio of the test P-wave velocity along the adit depth to the P-wave velocity of intact rock), the sum of joint openings every 2 meters (S t ), and the density of open joints (D t ) were calculated as quantitative indices for the rock mass unloading zone. The characteristics of the unloading zone of rock mass slopes at the dam site were successfully determined. The method of combining qualitative data with quantitative indices was found to be effective for the classification of slope unloading zones. 相似文献
12.
由于水电工程长隧洞受地质条件影响受勘测条件和勘探手段的限制以及施工难度大,变化因素多等原因其开挖造价问题较复杂。因此,在水电工程长隧洞开挖定额项目中应考虑短循环进尺因素,增加按围岩分类的补充调整系数,考虑长隧洞开挖艰难因素,补充洞长增加系数 相似文献
13.
该文在野外地质调查基础上,对备战铁矿区内的火山岩和矿石进行了详细的矿物学和岩石地球化学研究,并深入讨论了矿床成因。研究表明,该区的主要赋矿围岩为火山岛弧玄武岩,其与磁铁矿有着类似的稀土元素配分模式,说明二者有成因上的联系。成矿物质可能来源于北天山洋块向伊犁板块之下俯冲过程中软流圈上涌形成的富铁玄武质岩浆。受洋块俯冲作用影响,富铁玄武质岩浆沿北天山压扭性深大断裂底侵,并经历了一定的结晶分离或同化混染作用,最后在中地壳形成一套演化的玄武质(安山质)岩浆,并在岩浆晚期阶段发生富铁岩浆和硅酸盐岩浆的分离,此时,火山岩中的普通辉石受岩浆晚期的热液作用影响蚀变为透辉石,发生了Si,Ca,Mg的富集和Fe,Al,Ti的缺失,一定程度上促进了含铁矿浆的富集。 相似文献
14.
The dynamic failure mode and energy-based identification method for a counter-bedding rock slope with weak intercalated layers are discussed in this paper using large scale shaking table test and the Hilbert-Huang Transform (HHT) marginal spectrum. The results show that variations in the peak values of marginal spectra can clearly indicate the process of dynamic damage development inside the model slope. The identification results of marginal spectra closely coincide with the monitoring results of slope face displacement in the test. When subjected to the earthquake excitation with 0.1 g and 0.2 g amplitudes, no seismic damage is observed in the model slope, while the peak values of marginal spectra increase linearly with increasing slope height. In the case of 0.3 g seismic excitation, dynamic damage occurs near the slope crest and some rock blocks fall off the slope crest. When the seismic excitation reaches 0.4 g, the dynamic damage inside the model slope extends to the part with relative height of 0.295-0.6, and minor horizontal cracks occur in the middle part of the model slope. When the seismic excitation reaches 0.6 g, the damage further extends to the slope toe, and the damage inside the model slope extends to the part with relative height below 0.295, and the upper part (near the relative height of 0.8) slides outwards. Longitudinal fissures appear in the slope face, which connect with horizontal cracks, the weak intercalated layers at middle slope height are extruded out and the slope crest breaks up. The marginal spectrum identification results demonstrate that the dynamic damage near the slope face is minor as compared with that inside the model slope. The dynamic failure mode of counter-bedding rock slope with weak intercalated layers is extrusion and sliding at the middle rock strata. The research results of this paper are meaningful for the further understanding of the dynamic failure mode of counter-bedding rock slope with weak intercalated layers. 相似文献
15.
在恐龙化石发掘过程中不仅机械扰动会直接导致化石或围岩的破碎,应力释放也会导致化石及围岩表面裂隙的产生及扩张,这些节理裂隙又为水和空气的活动提供了通道,使风化破坏作用更加迅速。作者以分层开挖理论为基础,建立了模拟化石开挖过程的数值模型。通过计算机模拟开挖过程中0m、11m、14m、19m四个深度的等效应力变化过程和XZ方向应力的变化过程发现:开挖前后化石表面的最大等效应力差达到0.34MPa,围岩表面的最大等效应力差达0.3MPa;埋深越大的化石,在开挖露出地面后等效应力的回弹现象越明显,即应力释放越严重;虽然化石表面所受剪应力不大,但其对化石风化的影响比在压应力条件下要大的多,这是导致卸载裂隙产生的主要原因。因此,恐龙化石发掘要逐层缓慢开挖,使化石逐渐达到新的应力平衡,以便减少应力快速释放对化石造成的风化破坏,特别是要做好护坡,最大限度地防止剪应力的产生。 相似文献
16.
Arrays of baffles are usually installed in front of protection site to attenuate the flow energy of rock avalanches in mountainous areas. Optimization design is crucial for efficiency promotion in hazard energy dissipation engineering. In this study, a deceleration strip was added in the baffles protection system to optimize the traditional baffles system. The effects of the "baffles-deceleration strip" hybrid protection system was discussed in detail with the nails number and nails angle. This study presents details of numerical experiments using the discreteelement method(DEM). The effect of the optimization of hybrid protection system(nail angle and nail number) were investigated specifically, especially the impact force that avalanches exerted on structures. The results show that the maximum impact forces and kinetic energy of the rock avalanches decreases with the increase of the number and angle of the nail. Moreover, the distance between the toe and the bearing structure(L_m) is also a key factor. The shorter the distance L_m(30 m) is, the higher the maximum impact force are. The longer the distance L_m(70 m) is, the lower the maximum impact force are. Under the same size of the nails, increasing the numbers can enhance the dissipation ability of the hybrid protection system. Meanwhile, increasing itsangle can also enhance the dissipation ability. There are three key ways for nails attenuate rock avalanches:(i) block the fine particles directly;(ii) form the particles bridge between nails and baffles;(iii) dissipate the coarse particles energy directly. The effect of segregation in rock avalanches is crucial for the energy dissipation mechanism, which is a key factor to optimize the traditional baffle system. 相似文献
17.
Deformation features and failure mechanism of steep rock slope under the mining activities and rainfall 总被引:1,自引:0,他引:1
Zhi-qiang Li Yi-guo Xue Shu-cai Li Le-wen Zhang Dan Wang Bin Li Wen Zhang Kai Ning Jian-ye Zhu 《山地科学学报》2017,14(1):31-45
Underground mining activities and rainfall have potential important influence on the initiation and reactivation of the slope deformations, especially on the steep rock slope. In this paper, using the discrete element method (UDEC), numerical simulation was carried out to investigate deformation features and the failure mechanism of the steep rock slope under mining activities and rainfall. A steep rock slope numerical model was created based on a case study at the Wulong area in Chongqing city, China. Mechanical parameters of the rock mass have been determined by situ measurements and laboratory measurements. A preliminary site monitoring system has been realized, aiming at getting structure movements and stresses of unstable rock masses at the most significant discontinuities. According to the numerical model calibrated based on the monitoring data, four types of operation conditions are designed to reveal the effect of mining excavation and extreme rainfall on the deformation of the steep rock slope. 相似文献
18.
软硬互层结构的顺层岩质边坡破坏类型复杂、难于防治, 针对此类边坡地质灾害易发、多发的问题, 从坡面角度、岩层倾向及组合形式、节理分布等方面进行了研究。边坡物理模型试验是揭示边坡变形破坏机理的重要手段, 基于相似理论, 以重庆市万州区孙家滑坡为工程依托, 根据滑坡区地质勘探报告设计了室内边坡物理模型试验; 试验通过顶升模型箱模拟重力加载来探究顺层岩质边坡发生破坏时, 前缘坡角和软弱夹层倾角之间的关系; 结合有限元分析软件Plaxis 2D对物理模型进行了多组数值模拟试验, 以验证软硬互层顺层岩质边坡破坏机制。试验结果表明: 对于顺层岩质边坡, 当软弱夹层的倾角在22°左右, 前缘开挖坡角58°左右时, 顺层岩质边坡容易发生滑动, 滑动面为后缘节理面和软弱夹层的贯通面。因此, 顺层岩质边坡稳定性受层面和节理面密度的控制, 当边坡含多层软弱层面时, 易沿层面和后缘节理贯通面发生破坏, 随着软弱面层数增加, 边坡稳定系数逐渐降低。研究成果可以为公路开挖切坡导致的顺层岩质边坡失稳机理研究及其稳定性评价提供理论依据, 为顺层岩质边坡失稳的预测预报提供支撑。 相似文献
19.
Weak rock zone (soft interlayer, fault zone and soft rock) is the highlight of large-scale geological engineering research.
It is an important boundary for analysis of rock mass stability. Weak rock zone has been formed in a long geological period,
and in this period, various rocks have undergone long-term consolidation of geostatic stress and tectonic stress; therefore,
under in-situ conditions, their density and modulus of deformation are relatively high. Due to its fragmentary nature, once
being exposed to the earth’s surface, the structure of weak rock zone will soon be loosened, its density will be reduced,
and its modulus of deformation will also be reduced significantly. Generally, weak rock zone can be found in large construction
projects, especially in the dam foundation rocks of hydropower stations. These rocks cannot be eliminated completely by excavation.
Furthermore, all tests nowadays are carried out after the exposure of weak rock zone, modulus of deformation under in-situ
conditions cannot be revealed. In this paper, a test method explored by the authors has been introduced. This method is a
whole multilayered medium deformation method. It is unnecessary to eliminate the relatively complete rocks covering on weak
rock zone. A theoretical formula to obtain the modulus of deformation in various mediums has also been introduced. On-site
comparative trials and indoor deformation modulus tests under equivalent density conditions have been carried out. We adopted
several methods for the prediction researches of the deformation modulus of weak rock zone under in-situ conditions, and revealed
a fact that under in-situ conditions, the deformation modulus of weak rock zone are several times higher than the test results
obtained after the exposure. In a perspective of geological engineering, the research findings have fundamentally changed
peoples’ concepts on the deformation modulus of weak rock zone, provided important theories and methods for precise definition
of deformation modulus of deep weak rock zone under cap rock conditions, as well as for reasonable engineering applications. 相似文献