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1.
For large cross-section tunnel in horizontal layered rock mass, blasting excavation often causes serious overbreak and underbreak. In this study, blasting excavation tests of tunnel upper face were conducted, blast-induced excavation damage and the influence mechanisms of weak beddings and joints were analyzed based on the Panlongshan tunnel. In order to achieve fine excavation, the cut mode of “center holes and four-wedge cutting holes”, the blasthole pattern of “empty holes, long holes, short holes and additional relief holes”, the maximum single-hole charge and the air-deck charge structure were proposed. Compared with the damage characteristics, overbreak and underbreak, and deformations of surrounding rock before and after optimization, the latter was better in tunnel contour formation and surrounding rock stability. The results show that after optimization, the large-area separation of vault rock mass is solved, the step-like overbreak of spandrel rock mass is reduced and the large-size rock block and underbreak are avoided. The maximum linear overbreak of vault, spandrel, and haunch surrounding rock is decreased by 42.3%, 53.7% and 45.1%, respectively. The underbreak at the bottom of the upper face is reduced from ??111.5 to ??16.5 cm. The average overbreak area is decreased by 61.1%. The surrounding rock displacement after optimization finally converges to the smaller value. The arch crown settlement and the horizontal convergence of haunch are reduced by about 21.6% and 18.3%, respectively. Furthermore, from the completion of blasting excavation to the stabilization of surrounding rock, it takes less time by using the optimized blasting scheme. 相似文献
2.
In order to reduce roadway excavation and effectively control roadway surrounding rock deformation, different combinations of roadway width (4.5 m, 4.8 m, 5 m, 5.2 m), roadway height (3 m, 3.3 m, 3.5 m, 4 m), and arch height (0.3 m, 0.5 m, 0.8 m, 1 m) are selected. Through L16(34) three-factor four-level orthogonal test and numerical simulation, the surrounding rock deformation and plastic zone area evolution after roadway excavation are studied based on FLAC3D. The results show that arch height is negatively correlated with plastic zone area in roadway roof surrounding rock and positively correlated with failure of roadway sides and corners. Further investigation finds the optimal combination to be roadway width 4.5 m, roadway height 3 m, and arch height 1 m. Compared with the original scheme, the new straight-wall arched section reduces plastic zone area by 35.07%, roof subsidence by 19.2% and side displacement by 22.4%. The optimized roadway section effectively reduces the failure range of surrounding rock plastic zone and contributes to long-term roadway stability. 相似文献
3.
针对雷公浦小净距隧道后行左洞洞口段具有半硬岩层半软岩层的特点,在开挖过程中,按照新奥法对隧道地表沉降、拱顶下沉、水平收敛、中间岩柱的位移、锚杆轴力、围岩压力和钢拱架应力等项目进行监测。监测结果表明,采用预留核心土法可以较好地控制围岩变形和应力;后行洞的拱顶沉降大于先行洞,且软岩一侧的下沉量更大;中间岩柱较薄弱,开挖初期往先行洞方向移动;降雨对围岩变形和压力影响较大,施工中应引起重视。研究结论可为类似条件下工程的设计、施工和监测提供借鉴。 相似文献
4.
This paper presents a novel approach to the simulation of NATM tunnel construction using the Boundary Element Method (BEM) as principal numerical method. This new approach has the advantage that only the excavation surface, the possible plastic zones and the tunnel lining have to be discretised. The whole rock mass is represented by the BEM whereas the Finite Element Method (FEM) is used to represent the tunnel lining only. Thus, a general coupling strategy for coupling three-dimensional boundary elements with shell finite elements (shotcrete) and beam finite elements (steel arches) is presented. To achieve realistic results the effect of hydration of the shotcrete and yielding of the steel arches is considered in the excavation process. Furthermore, the nonlinear rock behaviour is modelled more realistically by using a powerful hierarchical constitutive model which considers a large range of rock materials. The combination of these ideas results in higher user-friendliness and efficiency. Some verification tests and practical applications in tunnelling are presented. 相似文献
5.
With increased demand for the tunnel construction in rock–soil interface composite formations, the influence on surrounding environment especially the excavation face instability during construction and ground settlement in the long term has gained great attention. The researches about environmental disturbance by shield tunneling construction in single ground as the soil or rock conditions have been developed continuously. However, due to the complexity and uncertainty of the interaction between rock–soil interface composite formations and shield machines, works on these special conditions have not been carried out sufficiently. In this paper the theoretical, experimental and numerical researches on the excavation face stability and ground settlement are discussed while the in situ datum are used to support them. First, the typical projects in rock–soil interface composite formations are listed and the difficulties met are summarized. Second, the failure model of excavation face and support pressure from the tunneling shield in rock–soil interface composite formations are discussed. Then, a comprehensive survey of the factors of ground settlement during and after construction and some effective prediction models are made. Finally, the existing problems and directions for future research are introduced. 相似文献
6.
为探明强震区千枚岩地层中长大山岭隧道支护参数变化与衬砌结构变形的相互作用关系,基于新奥法施工理念,结合强震区在建杜家山绢云千枚岩隧道现场试验段的实际施工过程,根据采取的三台阶施工方法,以试验段设置的5种支护方案为依托,对各种情形下隧道变形及主体结构内力进行现场动态跟踪测试,探讨隧道施工过程中随各部开挖不同支护方案下拱顶沉降、周边收敛、地表沉降及结构内力的变化关系,分析初步认定支护强度及刚度大的F5方案更适用于震区千枚岩隧道施工。对5种方案的施工过程进行三维有限元弹塑性模拟,通过对开挖后隧道变形、支护受力与现场监测值的对比分析,对施工过程中隧道结构的安全性和围岩稳定性做出评价。现场试验和数值模拟结果综合分析表明,仅有两种(F4、F5)方案适用于隧道开挖,而F5方案的隧道变形及结构受力较其余4种方案更为合理,该方案的成功运用也验证了这一方案的合理、有效性。在该基础上总结提出的软岩隧道支护参数技术要领及方法可供类似工程参考。 相似文献
7.
目前在高速公路软岩浅埋隧道施工中均不同程度地出现了围岩坍塌、地表产生大面积沉降等问题。广福隧道某浅埋段,地质条件复杂,断面大、岩性差,受构造影响比较严重,而且顶板厚度比较薄,易发生坍塌、冒顶现象。为确保浅埋段隧道的施工安全,尽量减少隧道开挖引起的地层沉降和围岩变形,采用FLAC3D对4种施工工法全断面法、短台阶法、单侧壁导坑法和双侧壁导坑法进行模拟,分析了4种工法下地表沉降、隧道围岩周边位移和塑性区的变化特点,选出一种技术可行、经济合理的施工工法,得出一些有意义的结论。 相似文献
8.
针对一座浅埋偏压隧道,采用FLAC3D对该隧道进口段进洞开挖进行动态施工三维数值模拟。基于围岩应力分布特征,仰坡坡面轴向和横向位移的变化特征,分析了偏压浅埋隧道洞口段开挖引起的仰坡变形规律。计算结果揭示:仰坡后缘下沉,前缘向洞心外有移动趋势;隧道开挖引起隧洞洞身附近岩体出现较大应力集中和变形现象,洞口段洞身以上仰坡坡面主要以竖向沉降为主,洞身两侧向洞内挤压。在此基础上提出了保证仰坡稳定和安全进洞的一些建议。 相似文献
9.
以地下水位线以下的石楼隧道典型三趾马红土围岩段为例,通过现场监测对三趾马红土围岩的体积含水量、孔隙水压力、围岩应力(土压力)、拱顶沉降与水平收敛进行了分析。在此基础上,通过原位大剪试验获得了可靠的围岩抗剪强度参数,并建立了隧道三维有限元数值模型,分别对考虑水-力耦合效应、不考虑水-力耦合效应的三趾马红土围岩变形规律进行了探讨,分析了孔隙水压力随着隧道开挖的变化和三趾马红土围岩位移场、应力场受水-力耦合效应的影响程度,并提出了围岩破坏变形机制。结果表明:(1)实测拱顶下沉大于围岩水平变形,围岩应力可分为增长期( < 20d)、调整期(20~60d)、稳定期(>60d)3个阶段,且整体应力水平较高,下台阶含水量大于上台阶,孔隙水压力经历了由负变正的过程。(2)现场剪切试验所测围岩的黏聚力为64.0kPa,内摩擦角为27.7°。(3)数值分析表明,隧道开挖后孔隙水压力场变化十分明显,这是由地下水流速场的改变引起的,水力坡降在衬砌面附近最为明显,渗透动水压力导致土体产生一定的渗透变形;考虑水-力耦合后围岩剪应力、最大剪应变、拱顶沉降、水平收敛、底板隆起均较大。(4)受开挖及支护的影响,地下水产生渗流并依次经过拱顶、边墙,最终汇集于隧底;受开挖、地下水渗流的影响,围岩节理裂隙进一步扩张,成为地下水良好的运移通道;围岩的有效应力随着孔隙水压力的减小而增大,围岩的力学强度在土体趋于饱和状态时骤降,反过来,高有效应力、低围岩强度以及贯通性节理裂隙三者共同改变着地下水渗流场的状态。(5)为保障围岩整体稳定性,建议及时排出隧道底部积水并施做仰拱。 相似文献
10.
为分析软弱黄土隧道的变形规律,以西宁过境高速大有山黄土隧道为依托,采用精密水准仪和收敛计对隧道地表下沉、拱顶下沉和水平收敛进行了系统现场测试。结果表明:软弱黄土隧道拱顶下沉远大于水平收敛,变形时间长,变形量大,累计拱顶下沉值最大为950.6 mm。在临界埋深范围,围岩变形比深埋、浅埋时都大,且变形量离散性高;围岩变形速率在二衬施作时较大,软弱黄土隧道中作为围岩-支护系统稳定性判据的变形速率宜适当提高;围岩变形随时间变化符合指数函数规律,可利用指数函数预测围岩的最终变形;软弱黄土隧道变形分为急剧变形、持续增长和缓慢增长3个阶段,最终趋于稳定。隧道断面的初次开挖对地表变形影响显著,隧道轴线沉降最大,并沿横向逐渐减小。软弱黄土隧道预留变形量在不同位置处不宜统一设置,西宁地区软弱黄土Ⅴ级围岩建议拱顶预留700~800 mm,边墙预留300~350 mm,拱顶与边墙之间以曲线过渡。 相似文献
11.
In the construction of the tunnel passing through the existing structure at an ultra-close distance, the existing structure will produce obvious deformation. It is very important to understand the deformation characteristics of the existing upper structure at different positions, especially to ensure the safety of the upper structure and improve the effectiveness of tunnel construction. In this study, the double-line tunnels of Qingdao Metro Line 4 passing under the Cuobuling station were taken as the engineering background, and a detailed 3D numerical model was established. This study comprehensively considered the on-site construction process, including grouting hardening, stress release of the excavated rock mass, grouting pressure and so on. The influence of tunnel excavation on the ground settlement was compared with or without a station structure, and the result was fitted with an empirical formula. Finally, the deformation of the station structure due to the excavation of the double-line tunnels was analyzed. The results of the analysis were as follows: (1) In the presence of the station structure, the excavation of the tunnels had a significant impact on the surface settlement. (2) The settlement of the sidewall caused by the excavation of the left-line tunnel was greater than that of the right-line tunnel, and the settlement at the junction of the sidewall and the bottom plate was smaller than that at other positions of the sidewall. (3) Compared with the roof and middle slabs, the floor of the station was more susceptible to the influence of tunnel excavation. Overall, the research could provide guidance and reference for similar double-line tunnels through existing stations. 相似文献
12.
岩溶是地下水地质作用的过程和结果,是隧道建设面临的不良地质现象之一。正在建设中的某高速公路隧道出口段岩溶地质作用强烈,溶隙、孔洞发育,且受构造变形及后期淋滤溶蚀作用强烈,力学强度低,岩性复杂。其角砾状粘土岩和水云母粘土岩多已泥化成粘土,遇水易膨胀。岩溶区隧道围岩——支护体系的稳定性是该隧道建设面临的主要问题。文章结合隧道施工过程中的围岩变形监控量测和三维弹塑性有限元数值仿真模拟对隧道围岩——支护体系的稳定性进行了研究。围岩水平收敛和拱顶下沉位移及速率变化特性表明,在监测时段内隧道围岩无趋于稳定的迹象。施工动态力学数值仿真模拟表明,在初期支护条件下,围岩出现了较大范围的塑性破坏区,两隧道之间(间距45.0m)围岩破坏接近度达到0.70,最大竖向位移达到3.0mm,表明隧道全断面施工时,两隧道相互作用影响程度较大。为确保隧道围岩——支护体系的稳定,选择合理的施工方法,制定切实可行的支护方案提供了信息。 相似文献
13.
This study investigates the disturbance of bridge piles caused by the adjacent deep excavation of a metro station in Guangzhou while considering the existence of underlying karst caverns. Ground treatment was adopted to reduce the effects of the deep excavation on the surrounding environment, including metro jet system (MJS) technology and karst treatment. Considering the presence of karst cavern and an inhomogeneous limestone layer, three-dimensional nonlinear finite element analysis (FEA) was implemented to investigate the excavation-induced effects on the surrounding ground and structures. Coupled pore fluid diffusion and stress analysis were adopted for the excavation simulation, and comparative analyses between the field data and FEA results were used to verify the numerical model. A series of parametric studies were conducted by varying the parameters of the MJS piles and karst cavern filling. This study reveals that: (1) increasing the Young’s modulus of the MJS pile leads to a decrease in ground and wall settlement; (2) the optimal buried depth of MJS piles is the depth that reaches the rock stratum; (3) the optimal MJS pile–wall distance is 0.225H (H denotes excavation depth); (4) increasing the piles diameter leads to a linearly decrease in wall and piles settlement; and (5) varying the Young’s modulus and permeability coefficient of the karst cavern filling has little effect on the surrounding environment. MJS treatment can be used as an effective measure for protecting the surrounding environment from disturbance by deep excavations. 相似文献
14.
在隧道施工前,应用数值模拟分析的方法,分析浅埋砂质黄土隧道施工力学效应和变形特征。根据浅埋砂质风积黄土隧道在施工过程中地表沉降量大和洞内施工安全风险大等特点,结合隧道实际监测数据,反演计算得到侵限段地质力学参数,为迈式管棚超前支护及径向迈式锚杆的全施工过程数值模拟提供计算依据,为控制隧道围岩变形提供数据支撑。计算结果显示,隧道侵限段地表最大沉降11.4 mm、最大拱顶下沉30.4 mm、最大水平收敛48.5 mm,隧道整体变形量减小,迈式管棚超前支护可以有效地提供纵向支撑,承受侵限土体压力、约束围岩变形和控制地表沉降,同时为支护侵限段钢拱架的安全拆换提供保障。研究结果表明:径向迈式锚杆、迈式管棚超前支护、环形支撑钢拱架和锁脚锚杆一起,构成了浅埋风积砂质黄土隧道主被动变形综合控制体系,有效地解决了浅埋风积砂质黄土隧道软弱围岩超前支护的难题。 相似文献
15.
针对软弱破碎Ⅱ类围岩双连拱隧道采用三导洞施工方法的特点,阐述了其安全施工技术要点,实际施工中,就其监测内容及监测结果进行了实时分析,为隧道安全施工提供了依据,长期监控量测结果表明,该隧道结构是安全的,达到了围岩与支护结构体系安全与稳定的要求,所采用的安全施工措施以及信息化施工方法对类似工程具有指导和借鉴意义. 相似文献
16.
为了研究黄土连拱隧道动态施工时围岩的损伤情况和损伤分布规律,在室内试验的基础上推导了Q2黄土的弹塑性损伤本构模型,并基于FLAC3D平台编制了自定义本构模型,提出了损伤度概念并编制了损伤度后处理模块。以国内首条高速公路黄土连拱隧道-离石隧道为依托工程,对两种开挖方案施工时围岩损伤情况进行数值分析。研究表明,该成果可以较好地掌握隧道每一开挖步后围岩损伤度的分布情况和损伤区的演化规律,为施工方案优化选择提供依据。该研究成果为地下工程支护参数优化和方案的选择开辟了一个新的方向。 相似文献
17.
为探讨深基坑开挖对周围管线位移的影响,明确管线位移轨迹模式,以南京江东软件城深基坑工程为背景,对管线位移实际监测数据进行分析。首先介绍该基坑工程的设计、施工和监测方案;在此基础上结合施工过程,分析周围4根管线竖向沉降和水平位移发展规律,并探讨二者之间的关系,揭示管线位移轨迹。由分析可知,竖向沉降先于水平位移发生,随基坑施工的开展,竖向和水平位移同步增大;在基坑第二道支撑施工后,竖向沉降出现平台,水平位移明显减小;地下室底板施工后,变形趋于稳定。距离基坑侧壁垂直距离较近的管线位移轨迹为三次多项式曲线,距离基坑侧壁较远的管线沿直线状向坑脚移动。 相似文献
18.
围岩的应力应变是分析隧道开挖中围岩稳定性的重要依据。目前比较成熟的隧道施工力学方法主要是对隧道开挖过程进行数值模拟。通过大型有限元软件ANSYS,计算了不同埋深、不同坡度角、不同覆盖层厚度条件下,马鞍形浅埋偏压软岩隧道围岩的应力应变,分析其规律并进行方案比选,确定了此类隧道比较合理的设计方案。分析结果表明:以2倍洞径的埋深作为偏压隧道深埋或浅埋的判断依据是合理的;在保证围岩稳定不发生片帮冒顶的前提下,减小埋深和覆盖层厚度是比较合理的;隧道内壁各点的应力应变规律可以为隧道开挖中支护结构参数的选取提供参考。 相似文献
19.
从不同围岩类别出发,对3车道小间距隧道采用典型双侧导坑法的开挖施工过程进行了数值模拟研究。给出了不同围岩类型下的3车道小间距隧道在施工过程中的围岩破坏特征及其变形规律和变形规律的相似性,获得了洞周最大变形量值之间的相对比值关系。通过中隔墙的变形与塑性破坏规律分析,比选出了3车道隧道中隔墙最小间距的工程设计参考值。分析表明:II类围岩合理间距不应小于0.45B,III类围岩应在0.35~0.45B之间,IV,V类围岩可在0.2~0.35B之间选择,对信息化反馈施工,指出了必须重点监控与关注的位置。为小间距隧道的发展和施工设计提供了较确切的参考数据和理论依据。 相似文献
20.
在大型地下岩洞中储油是世界各国石油战略储备的重要方式之一。随着我国石油进口量的不断增加,建造大型地下储油洞库无疑是一种综合经济效益良好的方案。针对大型地下水封储油岩洞库的工程特点,利用数值模拟方法对储库洞群中各洞室的开挖施工顺序进行了仿真模拟计算。通过对3种可能的施工方案所引起的地表变形、洞周关键位置的变形以及应力场和位移场的分布规律对比分析,比选出了洞群中各洞室较优的开挖先后顺序。对筛选出的较优方案进行了施工过程与粘弹性稳定性分析模拟,给出了考虑岩体流变特性时油库的变形规律特点,并对大型地下油库的强度及长期稳定性进行了分析评价,所得结论对地下储油库的开挖施工有一定的参考价值。 相似文献
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