共查询到20条相似文献,搜索用时 125 毫秒
1.
G. Exadaktylos M. Stavropoulou G. Xiroudakis M. de Broissia H. Schwarz 《Rock Mechanics and Rock Engineering》2008,41(6):797-834
Summary Basic principles of the theory of rock cutting with rolling disc cutters are used to appropriately reduce tunnel boring machine
(TBM) logged data and compute the specific energy (SE) of rock cutting as a function of geometry of the cutterhead and operational
parameters. A computational code written in Fortran 77 is used to perform Kriging predictions in a regular or irregular grid in 1D, 2D or 3D space based on sampled data referring to rock mass classification
indices or TBM related parameters. This code is used here for three purposes, namely: (1) to filter raw data in order to establish
a good correlation between SE and rock mass rating (RMR) (or tunnelling quality index Q) along the chainage of the tunnel,
(2) to make prediction of RMR, Q or SE along the chainage of the tunnel from boreholes at the exploration phase and design
stage of the tunnel, and (3) to make predictions of SE and RMR or Q ahead of the tunnel’s face during excavation of the tunnel
based on SE estimations during excavation. The above tools are the basic constituents of an algorithm to continuously update
the geotechnical model of the rock mass based on logged TBM data. Several cases were considered to illustrate the proposed
methodology, namely: (a) data from a system of twin tunnels in Hong Kong, (b) data from three tunnels excavated in Northern
Italy, and (c) data from the section Singuerlin-Esglesias of the Metro L9 tunnel in Barcelona.
Correspondence: G. Exadaktylos, Department of Mineral Resources Engineering, Technical University of Crete, Chania, Greece 相似文献
2.
Faisal I. Shalabi Husam A. Al-Qablan Omar H. Al-Hattamleh 《Geotechnical and Geological Engineering》2009,27(2):237-248
Lining contact pressure and ground deformation of Raghadan transportation tunnel (Amman, Jordan) were investigated. The tunnel
is 1.1 km in length and 13.5 m in diameter. This study was intended to integrate useful relations among the widely used rock
classification system (RMR: rock mass rating), Hoek–Brown classification, and lining-ground interaction. The materials encountered
along the tunnel alignment were limestone, dolomatic limestone, marly limestone, dolomite, and sillicified limestone. The
ground conditions along the tunnel alignment including bedding planes, joint sets and joint conditions, rock quality, water
flow, and rock strength were evaluated based on the drilled boreholes and rock exposures. Elasto-plastic finite element analyses
were conducted to study the effect of rock mass conditions and tunnel face advance on the behavior of lining-ground interaction.
The results of the analyses showed that lining contact pressure decreases linearly with the increase in RMR value. Also the
results showed that tunnel lining contact pressure and crown inward displacement decreases with the increase in the unsupported
distance (distance between tunnel face and the end of the erected lining). Ground displacement above the tunnel crown was
found to be increases in an increasing rate with the decrease in the depth above the crown. This displacement was also found
to be affected by the RMR value and the unsupported distance. 相似文献
3.
This paper describes the application of the SRC rockmass classification system to tunnels under high horizontal tectonic stress excavated in weak rocks. The analysis was performed on 25 tunnels in Spain and Italy, for which it was found that much heavier supports than those estimated by the RMR index were required. SRC and RMR indices and other relevant geomechanical data were obtained during the site investigation and construction stages. Data corresponding to in situ stress measurements, analysis of tectonic structures and instability problems arising during construction were used to asses the state of stress.
The relationship between tunnel section convergence and the SRC and RMR indices was also analysed. Support measurements based on SRC and RMR classification were compared with those actually used during construction. These analyses indicate that for most of the tunnels examined, supports estimated using the SRC were much closer to those actually installed than those predicted by the RMR index.
Based on the case histories presented, the factors mainly contributing to deformability and consequently to assessing support measurements were: high horizontal tectonic stress, low strength of rocks, overburden thickness and structural anisotropy related to tunnel axis orientation. According to these factors, the tunnels investigated were classified as three types. Tunnels classed as type I were those of low overburden thickness under high horizontal tectonic stress excavated in low strength rocks. The supports installed for these tunnels were much heavier than those predicted by the RMR index, being more in line with those indicated by the SRC index. The type II tunnels had thick overburdens and showed similar stress and strength conditions to the former. The supports installed were practically those foreseen by the SRC index, appreciably differing with respect to the RMR index. Finally, tunnels included in the type III class were those under low to moderate tectonics stress, irrespective of overburden thickness. These tunnels gave rise to RMR and SRC indices that provided acceptable results. 相似文献
4.
隧道TBM开挖过程中经常会遇到复合岩层,在这种地质环境下,隧道掘进机(tunnel boring machine,简称TBM)开挖过程中的隧道围岩强度很难估计,隧道开挖掌子面和围岩容易发生坍塌。为了提高隧道掘进效率、预防事故发生,对开挖隧道围岩强度进行实时估算方面的研究很有必要。在重庆轨道九号线隧道TBM施工中,通过室内试验和现场实测数据发现,TBM推力FN与岩石强度成正比、TBM扭矩推力比T/FN(T为扭矩)与贯入度p0.5成正比例关系。针对砂质泥岩、砂岩和灰岩组成的复合岩层,提出了一种利用现场实测推力FN和扭矩T的值来快速估算开挖隧道围岩强度的方法,进一步对TBM实测数据进行线性拟合,从而得到估算公式中两个常数α1、α2的取值方法,并在10多个隧道实际工程中得到验证。结果表明,对于这种复合岩层地质环境,两个常数α1、α2的值与滚刀数量n和滚刀直径d相关。该研究成果为实时快速估算开挖隧道围岩强度提供了一种新的切实可行的思路,能提高隧道TBM施工的可靠性和安全性,具有重要的应用价值。 相似文献
5.
隧洞围岩分类与洞径和超欠挖之间的关系研究 总被引:5,自引:0,他引:5
岩体的地质结构特征是影响隧洞围岩超欠挖的主要因素,正确评价岩体的质量,对岩体进行分类,并研究岩体质量与隧洞超欠挖之间的关系对分析和预测隧洞超欠挖具有重要的意义。对隧洞围岩的RMR分类和Q分类与超欠挖之间的关系进行了详细研究,研究了在同类岩体条件下不同开挖洞径与隧洞超欠挖之间的关系,并由此建立了RMR分类和Q分类之间的关系,得出围岩的RMR分类和Q分类与隧洞超欠挖呈线性关系和对数线性关系,根据超欠挖建立起来的RMR分类和Q分类之间的关系比较符合工程实际。最后研究了超欠挖与围岩分类及洞径之间的复相关关系。 相似文献
6.
Experimental and Numerical Studies on Rock Breaking with TBM Tools under High Stress Confinement 总被引:3,自引:2,他引:3
N. Innaurato C. Oggeri P. P. Oreste R. Vinai 《Rock Mechanics and Rock Engineering》2007,40(5):429-451
Summary The understanding of rock breaking and chipping due to the TBM cutter disks mechanism in deep tunnels is considered in this
paper. The interest stems from the use of TBMs for the excavation of long Trans-Alpine tunnels. Some tests that simulate the
disk cutter action at the tunnel face by means of an indenter, acting on a rock specimen are proposed. The rock specimen is
confined through a flat-jack and a confinement-free area on one side of the specimen simulates the formation of a groove near
the indenter, like it occurs in TBM excavation conditions. Results show a limited influence of the confinement stress versus
the thrust increment required for breaking the rock between the indenter and the free side of the specimen. Numerical modelling
of the cutter disk action on confined material has also been carried out in order to investigate further aspects of the fracture
initiation. Also in this case the importance of the relative position between disk cutter and groove is pointed out. 相似文献
7.
This paper encompasses the engineering geological properties of rock mass along the power tunnel of hydropower in Kohistan, Khayber Pakhtun Khawa (KPK), Pakistan. The major geological units of the study area are Chilas complex (CC) and Gilgit complex (GC) that consists mostly of igneous and metamorphic rocks. Discontinuity surveys were conducted to classify the rock mass by utilizing rock mass rating (RMR) and tunneling quality index (Q) classification systems. RMR system involves collection of data for parameters of rock strength, RQD, spacing of discontinuities, condition of discontinuities, groundwater condition and Q system involves rock quality designation (RQD), joint roughness (Jr), joint sets (Js), joint alteration (Ja), stress reduction factor (SRF) and joint water reduction (Jw). RMR values ranges from 46 to 66 (fair to good) for rock unit of Chilas complex (CC) and 50 to 58 (fair) for rock unit of Gilgit complex (GC). The evaluated values of tunnel quality by Q-system are 1.55 to 6.4 (poor to fair) for Chilas complex (CC) and 1.35 to 1.84 (poor) for Gilgit complex (GC). The required support along the tunnel route is also estimated by both classification systems. Unwedge program is used to analyze the unstable zones due to the intersection of different joint sets. Total 14 cases are analyzed in Unwedge from which 3 cases have failure potential with FOS less than 1. These failure potential blocks can become stable by applying further support of rock bolting and shotcrete layer. 相似文献
8.
高地应力条件下围岩质量分类方法研究 总被引:1,自引:0,他引:1
围岩质量分类是隧道及地下工程领域重要的技术工作之一。限于经验,目前常用的围岩质量分类方法主要适用于中低应力、低应力环境,而在高地应力地区的适宜性较差。文章结合某水电工程实例,先后采用BQ分类、HC分类、RMR分类以及Q系统分类方法,分别就4种方法分类结果的相关性、吻合率和一致性等方面开展了系列对比研究和初步的成因分析。发现无论是上述4种方法各自的分类依据和指标,还是各指标权重的大小均有较大差异。故针对高地应力环境,以及研究区高地应力条件下的岩爆问题,分别对现行Q系统分类、HC分类和RMR分类方法逐一进行了修正。如Q系统重点修正了地应力折减系数、节理粗糙度系数Jr和节理风化蚀变系数Ja;HC分类提出了考虑高地应力和岩爆烈度的地应力折减系数,而取消了强度应力比S;RMR方法主要修正了R6,并增加了地应力折减系数K等。修正后的Q、HC、RMR方法所得结果更接近实际情况。最后,基于概率统计方法,建立了采用多种方法的围岩综合分类方案。 相似文献
9.
This paper presents the engineering geological properties and support design of a planned diversion tunnel at the Boztepe dam site that contains units of basalt and tuffites. Empirical, theoretical and numerical approaches were used and compared in this study focusing on tunnel design safety. Rock masses at the site were characterized using three empirical methods, namely rock mass rating (RMR), rock mass quality (Q) and geological strength index (GSI). The RMR, Q and GSI ratings were determined by using field data and the mechanical properties of intact rock samples were evaluated in the laboratory. Support requirements were proposed accordingly in terms of different rock mass classification systems. The convergence–confinement method was used as the theoretical approach. Support systems were also analyzed using a commercial software based on the finite element method (FEM). The parameters calculated by empirical methods were used as input parameters for the FEM analysis. The results from the two methods were compared with each other. This comparison suggests that a more reliable and safe design could be achieved by using a combination of empirical, analytical and numerical approaches. 相似文献
10.
A general approach to rock engineering designing aspects adopted at the Khiritharn Pumped Storage Scheme is described. The scheme involves excavation of three large caverns and tunnels in jointed sandstone within a suture zone in Southeast Thailand. Geological condition and engineering properties of the sandstone were investigated. Strength and modulus properties of the intact rock were determined from laboratory tests and properties of rock mass were empirically estimated for the design analysis in the de.nite study stage on the basis of three rock mass classi.cation systems namely the Rock Mass Rating (RMR), Geological Strength Index (GSI) and a Japanese system (EPDC). While the GSI gives strength and modulus of deformation values slightly higher than the RMR classi.cation, the EPDC gives a lower value of modulus of deformation but comparable rock mass strength value for the level of con.ning pressures at the depth of the cavern excavation. The results of stress analysis and loosening wedge analysis for the cavern excavations suggest favorable excavation condition. 相似文献
11.
针对全断面隧道掘进机(TBM)开挖过程掌子面岩体软硬交替变化的特点,以兰州水源地建设工程为背景,采用模型试验与数值模拟方法研究了复合地层TBM开挖过程隧洞围岩的动态响应规律。通过开展相似配比试验配制了不同围岩强度比的复合地层岩体相似材料,运用光纤光栅技术全程捕捉了隧洞开挖过程复合地层应变演化规律,并分析了隧洞围岩的宏观破裂形态。模型试验结果表明:TBM推进过程中复合地层应变变化规律体现了掌子面推进的空间效应,软岩部分应变要大于硬岩部分应变,且随着开挖步数的增加两种岩层应变差值越大;隧洞内岩体完全挖除后,围岩宏观破裂形态表明因复合地层岩体物理力学性质的差异,上覆软岩变形破坏较为严重,破裂和变形较为显著,在软、硬岩层交界面出现“变形不协调”现象。选取工程沿线某洞段的地质力学参数,基于破坏接近度(FAI)指标评价了隧洞开挖过程中复合地层围岩的稳定性,数值结果表明:开挖过程软岩中FAI变化较为明显,塑性区和破坏区分布范围更广,而下部硬岩受开挖扰动影响较小,只有拱底小范围岩体进入破坏状态。模型试验和数值结果均说明交替变化的掌子面岩体在开挖过程中其围岩在变形破坏等规律方面存在明显差异,因此,TBM在复合地层施工可采取重点部位监测预警、提前采取相应措施等手段,减少或避免卡机事故的发生。该研究成果对于指导复合地层TBM施工具有一定的借鉴和指导意义。 相似文献
12.
ABSTRACT The local site experience is a valuable component for the success of rock mass classification systems as tunnel design methods. The Ituango hydroelectric project is a very important source of information in order to evaluate the usefulness of the main rock mass classification systems. The objective of this research is to improve understanding of some important features of excavated rock mass, such as discontinuities, block size, shear strength and joint alteration, by analyzing some hundreds of data obtained during excavation cycle. The field study included a survey of exposures after drilling and blasting rounds. Rock mass classification and support measures for each type of terrain along 1400 m tunnel were performed. The rock mass classes could be better explained if shear strength, alteration or block size is calculated. The assessment of these data allows evaluating the block fall risk, improving support and liner. A local correlation between the RMR and Q system was also obtained. 相似文献
13.
A Top Pilot Tunnel Preconditioning Method for the Prevention of Extremely Intense Rockbursts in Deep Tunnels Excavated by TBMs 总被引:2,自引:0,他引:2
Chuanqing Zhang Xiating Feng Hui Zhou Shili Qiu Wenping Wu 《Rock Mechanics and Rock Engineering》2012,45(3):289-309
The headrace tunnels at the Jinping II Hydropower Station cross the Jinping Mountain with a maximum overburden depth of 2,525 m,
where 80% of the strata along the tunnels consist of marble. A number of extremely intense rockbursts occurred during the
excavation of the auxiliary tunnels and the drainage tunnel. In particular, a tunnel boring machine (TBM) was destroyed by
an extremely intense rockburst in a 7.2-m-diameter drainage tunnel. Two of the four subsequent 12.4-m-diameter headrace tunnels
will be excavated with larger size TBMs, where a high risk of extremely intense rockbursts exists. Herein, a top pilot tunnel
preconditioning method is proposed to minimize this risk, in which a drilling and blasting method is first recommended for
the top pilot tunnel excavation and support, and then the TBM excavation of the main tunnel is conducted. In order to evaluate
the mechanical effectiveness of this method, numerical simulation analyses using the failure approaching index, energy release
rate, and excess shear stress indices are carried out. Its construction feasibility is discussed as well. Moreover, a microseismic
monitoring technique is used in the experimental tunnel section for the real-time monitoring of the microseismic activities
of the rock mass in TBM excavation and for assessing the effect of the top pilot tunnel excavation in reducing the risk of
rockbursts. This method is applied to two tunnel sections prone to extremely intense rockbursts and leads to a reduction in
the risk of rockbursts in TBM excavation. 相似文献
14.
Summary. Tunnel face and wall collapse are common during excavations performed by tunnel boring machines (TBMs) due to the difficulty
of correctly identifying the properties of the excavated rock. This identification, however, can be simplified by using the
cutting force to estimate rock strength, a method that has already proved quite successful in Japanese tunnel excavations.
This paper summarizes knowledge relating to the cutting force obtained through tunnel excavation experience, and the relationship
between rock strength and TBM operation is discussed. Although TBM operators rely on intuition to set the cutter head speed
appropriately, this decision process represents a logical method of operation that takes advantage of the variable speed capability
of the cutter head. Selection of appropriate support methods for the excavated face is also a critical issue in tunnel excavation.
This selection process is based on the condition of the rock, which is difficult to determine quickly and accurately during
tunnel excavation. The present paper uses the excavation of two tunnels to demonstrate that it is possible to assign rock
mass classifications accurately based on rock strength when boring a uniform rock type. It is also shown that the rock mass
can be classified from the rock strength normalized by the uniaxial compressive strength when boring through mixed rock types. 相似文献
15.
Two headrace tunnels and the drainage tunnel were excavated by tunnel boring machines (TBMs) in Jinping II Hydropower Station. During TBM excavation, two types of slabbing failure were encountered in these deep buried marble tunnels. One is rock bursting and the other is non-violent slabbing. In order to study the rock burst and slabbing failure, a unique true triaxial rock burst test was carried out to simulate the rock burst process with different in situ stresses. Four rock samples in different marble layers were obtained in the site, and then four experiments are conducted under the same stressed conditions as the in situ field. The rock burst process and slabbing failure phenomena of the four experiments are in good accordance with the observations of corresponding excavation site. The failure modes of slabbing and rock burst in different rock groups can be predicted based on the experiments. The influence of the slabbing and rock burst failure on TBM excavation is analyzed in depth. Non-violent slabbing is beneficial to the rock breakage process. Rock burst with violent slabbing process greatly affects the tunnel support, cutter and cutterhead damage, gripper movement and force and so on. 相似文献
16.
A case history of Tunnel Boring Machine jamming in an inter-layer shear zone at the Yellow River Diversion Project in China 总被引:4,自引:0,他引:4
This is a case study of a Tunnel Boring Machine (TBM) jamming in a section of the Connection Works No. 7 tunnel of the Yellow River Diversion Project (YRDP) in China. Analysis of tunnel lithology, rock convergence by shearing, rock strength and ground stress, indicates that a high rate of convergence within an inter-layer shear zone in the lower part of an anticline was a dominant factor in the jamming. In addition, the shield encountered unfavorable tunnelling conditions in the form of wet clay, groundwater inflow, and cavities, coincident with tensile stresses in the lower part of an adjacent syncline. Based on these diagnoses, economical and quick measures were adopted, including additional excavation outside of the shield leaving free space to release the TBM. After 9 days of being jammed, the TBM was totally released and resumed normal excavation. This example highlights lessons learned from folding and inter-layer shear zone in TBM tunnelling. 相似文献
17.
全断面硬岩隧道掘进机(tunnel boring machine, TBM)对岩体条件极其敏感,且其前期投入较大,准确地评估岩体可掘性、预测TBM掘进性能对TBM隧道施工至关重要。基于来自中国、伊朗两国涵盖3种不同岩性的5条TBM施工引水隧洞约300组现场数据,以现场贯入度指数FPI为岩体可掘性评价指标,分析了岩石单轴抗压强度UCS、岩体完整性指数 、岩体主要结构面与洞轴线的夹角?、隧洞直径D等与岩体可掘性之间的关系;探讨了适用于岩体可掘性研究的岩体参数统一方法,进一步建立了精度较高的(相关系数为0.768)岩体可掘性经验预测方法。基于该预测方法,运用K中心聚类分析方法,将岩体可掘性分为6类,探讨了不同岩体可掘性条件下TBM平均单刀推力、刀盘转速分布规律,相应成果可为实际工程中TBM施工隧洞岩体可掘性评估、掘进参数的选择、施工进度的安排提供一定的指导。 相似文献
18.
M. Chatziangelou B. Christaras G. Dimopoulos G. Soulios A. Kilias 《Engineering Geology》2002,65(4):233-243
In this paper, support measures obtained with the RMR classification method were used for estimating the support capacity of wedges found in relatively shallow tunnels. This was done for the Platamon railway tunnel, in northern Greece, which is at present, under construction. According to our investigation, the safety factors, which were calculated using the above mentioned support measures, were much higher than the theoretically needed safety factor. In cases where the height of the wedges is much greater than their base and the rockmass quality is very poor, the proposed RMR support measures could be introduced. In these cases, additional techniques, which include steel ribs and shotcrete (together with rock bolts), could be used. 相似文献
19.
Asghar Siahmansouri Javad Gholamnejad Mohammad Fatehi Marji 《Arabian Journal of Geosciences》2014,7(3):1059-1066
Twin tunnels can be used for many applications. Interaction between two tunnels is an important problem in tunnel engineering that should be studied specially. Numerical investigations are well adapted to field data and numerical methods can be used in design of rock pillar of twin circular tunnels. So far, no relationship has been provided to estimate the minimum stable rock pillar width. In this paper, the interaction between twin circular tunnels has been studied using 2D finite element analysis. To do this, a great number of twin tunnels were modeled in Phase2 software with different conditions of rock mass (RMR value) and depth of tunnel. Models were analyzed and minimum stable rock pillar width was determined. This process was repeated for three different ratios of K (ratio of horizontal stress to vertical stress, 0.5, 1, and 1.5). Finally, according to the linear and nonlinear regression methods, the best merit function was fitted to result of numerical analysis. Then, new approximate formula was proposed to estimate the minimum rock pillar width according to RMR value and depth of twin circular tunnels with different K values. The formulae are very accurate (coefficient of correlation equals to minimum 0.96) that can be used for estimating the minimum rock pillar width of twin circular tunnels. 相似文献
