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A multi-purpose prototype test system for mechanical behavior of tunnel supporting structure: Development and application 被引量:1
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作者 Hongbin Chen Xinhua You +1 位作者 Dajun Yuan Yang Ping 《Journal of Rock Mechanics and Geotechnical Engineering》 SCIE CSCD 2023年第2期467-476,共10页
A multi-purpose prototype test system is developed to study the mechanical behavior of tunnel sup-porting structure,including a modular counterforce device,a powerful loading equipment,an advanced intelligent manageme... A multi-purpose prototype test system is developed to study the mechanical behavior of tunnel sup-porting structure,including a modular counterforce device,a powerful loading equipment,an advanced intelligent management system and an efficient noncontact deformation measurement system.The functions of the prototype test system are adjustable size and shape of the modular counterforce structure,sufficient load reserve and accurate loading,multi-connection linkage intelligent management,and high-precision and continuously positioned noncontact deformation measurement.The modular counterforce structure is currently the largest in the world,with an outer diameter of 20.5 m,an inner diameter of 16.5 m and a height of 6 m.The case application proves that the prototype test system can reproduce the mechanical behavior of the tunnel lining during load-bearing,deformation and failure processes in detail. 展开更多
关键词 Prototype test system tunnel supporting structure tunnel fire LINING Mechanical behavior
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Stability Analysis of Large Section Rocky Tunnel Support Structure
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作者 Chaofan Si Jinhai Gao Yahui Li 《World Journal of Engineering and Technology》 2023年第2期234-245,共12页
In order to study the stress characteristics of the initial support and secondary lining of the large section tunnel and to solve the problem of secondary lining cracking during operation. Taking the large section tun... In order to study the stress characteristics of the initial support and secondary lining of the large section tunnel and to solve the problem of secondary lining cracking during operation. Taking the large section tunnel in Zihong village, Qi County as the research object, a numerical simulation method was used to establish a finite element model of the large section tunnel. So as to simulate and analyze the stress characteristics of the support structure of this tunnel. Through the simulation of the initial support and second lining of this large section tunnel in terms of displacement, stress, plastic zone damage and anchor shaft force, the results show that as the excavation progresses, the stress and displacement on the surface of the newly excavated tunnel profile is faster, especially at the side walls and arch footings, the stress and displacement values are slightly larger than other characteristic points, but the final values are stable and converge, and are basically consistent with the field monitoring results, which indicates that this support system is basically in stable state. Therefore, during the tunnel excavation and support process, special attention should be paid to the stability of the sidewalls and footings, and the results of this study will be of great practical significance for tunnel construction and maintenance. 展开更多
关键词 Large Section tunnel Initial support Secondary Lining Numerical Simulation STABILITY
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Vibration analysis of wind tunnel support 被引量:1
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作者 张旭 张家泰 +2 位作者 董国庆 张国友 刘德富 《Journal of Harbin Institute of Technology(New Series)》 EI CAS 2004年第5期510-512,共3页
In order to enable a wind tunnel support to have a high enough natural frequency to prevent experiencing mechanical resonance and excessive vibration displacement, five kinds of wind tunnel support structures have bee... In order to enable a wind tunnel support to have a high enough natural frequency to prevent experiencing mechanical resonance and excessive vibration displacement, five kinds of wind tunnel support structures have been simulated and analyzed individually under five different load conditions by means of a nonlinear finite element numerical method. With natural frequency and three directions vibration displacement given, simulation and analyses indicated that additional supports is more beneficial than heightening the rigidity of steel reinforced concrete in support pillars and adopting steel wrappers on the pillars to increase natural frequency of support structure. Increasing the rigidity of steel reinforced concrete, adopting steel wrappers and providing additional supports are all helpful in reducing three directions vibration Max displacement. and additional supports are comparatively more effective. Therefore, a structure scheme with steel reinforced concrete support pillars, steel wrappers and additional supports should be adopted in practical wind tunnel support construction. 展开更多
关键词 wind tunnel support finite element natural frequency three directions Max displacement
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Application of excavation compensation method for enhancing stability and efficiency in shallow large-span rock tunnels
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作者 BIAN Wen-hui YANG Jun +2 位作者 ZHU Chun WANG Ke-xue XU Dong-ming 《Journal of Central South University》 SCIE EI CAS CSCD 2024年第9期3242-3263,共22页
Engineering shallow,large-span rock tunnels challenges deformation control and escalates construction costs.This study investigates the excavation compensation method(ECM)and its associated technologies to address the... Engineering shallow,large-span rock tunnels challenges deformation control and escalates construction costs.This study investigates the excavation compensation method(ECM)and its associated technologies to address these issues.Utilizing five key technologies,the ECM effectively modulates radial stress post-excavation,redistributes stress in the surrounding rock,and eliminates tensile stress at the excavation face.Pre-tensioning measures further enhance the rock’s residual strength,establishing a new stability equilibrium.Field tests corroborate the method’s effectiveness,demonstrating a crown settlement reduction of 3–8 mm,a nearly 50%decrease compared to conventional construction approaches.Additionally,material consumption and construction duration were reduced by approximately 30%–35%and 1.75 months per 100 m,respectively.Thus,the ECM represents a significant innovation in enhancing the stability and construction efficiency of large-span rock tunnels,marking a novel contribution to the engineering field. 展开更多
关键词 excavation compensation method rocky tunnels shallow spanning tunnels tunnel support field test
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Physical model simulation of rock-support interaction for the tunnel in squeezing ground
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作者 Ketan Arora Marte Gutierrez Ahmadreza Hedayat 《Journal of Rock Mechanics and Geotechnical Engineering》 SCIE CSCD 2022年第1期82-92,共11页
The existence of squeezing ground conditions can lead to significant challenges in designing an adequate support system for tunnels.Numerous empirical,observational and analytical methods have been suggested over the ... The existence of squeezing ground conditions can lead to significant challenges in designing an adequate support system for tunnels.Numerous empirical,observational and analytical methods have been suggested over the years to design support systems in squeezing ground conditions,but all of them have some limitations.In this study,a novel experimental setup having physical model for simulating the tunnel boring machine(TBM)excavation and support installation process in squeezing clay-rich rocks is developed.The observations are made to understand better the interaction between the support and the squeezing ground.The physical model included a large true-triaxial cell,a miniature TBM,laboratoryprepared synthetic test specimen with properties similar to natural mudstone,and an instrumented cylindrical aluminum support system.Experiments were conducted at realistic in situ stress levels to study the time-dependent three-dimensional tunnel support convergence.The tunnel was excavated using the miniature TBM in the cubical rock specimen loaded in the true-triaxial cell,after which the support was installed.The confining stress was then increased in stages to values greater than the rock’s unconfined compressive strength.A model for the time-dependent longitudinal displacement profile(LDP)for the supported tunnel was proposed using the tunnel convergence measurements at different times and stress levels.The LDP formulation was then compared with the unsupported model to calculate the squeezing amount carried by the support.The increase in thrust in the support was backcalculated from an analytical solution with the assumption of linear elastic support.Based on the test results and case studies,a recommendation to optimize the support requirement for tunnels in squeezing ground is proposed. 展开更多
关键词 Squeezing ground tunnel support system Longitudinal displacement profile Rock-support interaction
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Optimization of construction scheme and supporting technology for HJS soft rock tunnel 被引量:8
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作者 Wang Shuren Li Chunliu +1 位作者 Liu Zhaowei Fang Junbo 《International Journal of Mining Science and Technology》 SCIE EI 2014年第6期847-852,共6页
For a soft rock tunnel under high stress in jointed and swell soft rock (HJS), two construction schemes pilot-tunneling enlarging excavation and step-by-step excavation were optimized using FLAC20, and the deformati... For a soft rock tunnel under high stress in jointed and swell soft rock (HJS), two construction schemes pilot-tunneling enlarging excavation and step-by-step excavation were optimized using FLAC20, and the deformation effects of the two construction schemes were verified by field tests. Based on engineer- ing geological investigation and mechanical analysis of large deformations, the complex deformation mechanisms of stress expansion and structural deformation of the soft rock tunnel were confirmed, and support countermeasures from the complex deformation mechanism converted to a single type were proposed, and the support parameters were optimized by field tests. These technologies were proved by engineering practice, which produced significant technical and economic benefits. 展开更多
关键词 Soft rock tunnel High stress Deformation mechanism support parameters Optimization
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Tunnel behaviour and support associated with the weak rock masses of flysch 被引量:2
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作者 V.Marinos 《Journal of Rock Mechanics and Geotechnical Engineering》 SCIE CSCD 2014年第3期227-239,共13页
Flysch formations are generally characterised by evident heterogeneity in the presence of low strength and tectonically disturbed structures. The complexity of these geological materials demands a more specialized geo... Flysch formations are generally characterised by evident heterogeneity in the presence of low strength and tectonically disturbed structures. The complexity of these geological materials demands a more specialized geoengineering characterisation. In this regard, the paper tries to discuss the standardization of the engineering geological characteristics, the assessment of the behaviour in underground excava- tions, and the instructions-guidelines for the primary support measures for flysch layer qualitatively. In order to investigate the properties of flysch rock mass, 12 tunnels of Egnatia Highway, constructed in Northern Greece, were examined considering the data obtained from the design and construction records. Flysch formations are classified thereafter in 11 rock mass types (I-XI), according to the siltstone -sandstone proportion and their tectonic disturbance. A special geological strength index (GSI) chart for heterogeneous rock masses is used and a range of geotechnical parameters for every flysch type is presented. Standardization tunnel behaviour for every rock mass type of flysch is also presented, based on its site-specific geotechnical characteristics such as structure, intact rock strength, persistence and complexity of discontinuities. Flysch, depending on its types, can be stable even under noticeable overburden depth, and exhibit wedge sliding and wider chimney type failures or cause serious deformation even under thin cover. Squeezing can be observed under high overburden depth. The magnitude of squeezing and tunnel support requirements are also discussed for various flysch rock mass types under different overburdens. Detailed principles and guidelines for selecting immediate support mea- sures are proposed based on the principal tunnel behaviour mode and the experiences obtained from these 12 tunnels. Finally, the cost for tunnel support from these experiences is also presented. 展开更多
关键词 Flysch Geological strength index(GSI) Weak rock tunnel behaviour Temporary support
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穿断层隧道NPR锚索支护体系抗震特性振动台试验研究 被引量:2
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作者 陶志刚 丰于翔 +3 位作者 赵易 张晓宇 何满潮 雷啸天 《岩土力学》 EI CAS CSCD 北大核心 2024年第4期939-949,共11页
为研究具有负泊松比效应(negative Poisson’s ratio,NPR)的恒阻大变形锚索在地震作用下的吸能特性与动力响应规律,利用振动台开展含断层隧道使用普通锚索支护以及使用NPR锚索支护的振动台物理模型试验,对比分析地震作用下处于不同围岩... 为研究具有负泊松比效应(negative Poisson’s ratio,NPR)的恒阻大变形锚索在地震作用下的吸能特性与动力响应规律,利用振动台开展含断层隧道使用普通锚索支护以及使用NPR锚索支护的振动台物理模型试验,对比分析地震作用下处于不同围岩条件中以及使用不同锚索进行支护时隧道结构的动力响应规律。研究结果表明:在同一地震波作用下,使用NPR锚索进行支护的隧道结构破坏程度与使用普通锚索进行支护的隧道结构相比有明显的改善,表明NPR锚索在地震作用下具有良好的吸能特性,能够为隧道结构提供有效支护;通过对比分析普通锚索与NPR锚索的锚索轴力时程曲线可知,在地震波作用下,普通锚索会发生破断现象,轴力突降至零,而NPR锚索的高恒阻力能够持续提供有效支护;分析隧道结构各测点的加速度、应变、土压力等动力响应可知,隧道断层区域在地震作用下的动力响应更为明显,隧道结构在地震作用下呈现出拱肩→拱腰→拱顶的破坏规律,这一研究成果为类似隧道工程的支护对策提供了理论参考。 展开更多
关键词 振动台试验 隧道支护 NPR锚索 地震响应
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Assessment of Rock Mass Quality and Support Estimation along Headrace Tunnel of a Small Hydropower in District Mansehra, Khyber Pakhtunkhwa, Pakistan
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作者 Mian Sohail Akram Muhammad Zeeshan +1 位作者 Muhammad Haroon Kamran Mirza 《Open Journal of Geology》 2019年第11期809-828,共20页
The main purpose of this study is to classify the rock mass quality by using rock mass quality (Q) and Rock Mass Rating (RMR) systems along headrace tunnel of small hydropower in Mansehra District, Khyber Pakhtunkhwa.... The main purpose of this study is to classify the rock mass quality by using rock mass quality (Q) and Rock Mass Rating (RMR) systems along headrace tunnel of small hydropower in Mansehra District, Khyber Pakhtunkhwa. Geological field work was carried out to determine the orientation, spacing, aperture, roughness and alteration of discontinuities of rock mass. The quality of rock mass along the tunnel route is classified as good to very poor quality by Q system, while very good to very poor by RMR classification system. The relatively good rock conditions are acquired via RMR values that are attributed to ground water conditions, joint spacing, RQD and favorable orientation of discontinuities with respect to the tunnel drive. The petrographic studies revealed that study area is mainly comprised of five major geological rock units namely quartz mica schist (QMS), garnet mica schist (GMS), garnet bearing quartz mica schist (G-QMS), calcareous schist (CS), marble (M). The collected samples of quartz mica schist, marble and garnet bearing quartz mica schist are fine to medium grained, compact and are cross cut by few discontinuities having greater spacing. Therefore, these rocks have greater average RQD, Q values, RMR ratings as compared to garnet mica schist and calcareous schist. 展开更多
关键词 tunnel PETROGRAPHY Rock Mass Rating (RMR) tunneling Quality Index (Q System) support ESTIMATION
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基于总安全系数法的喷射混凝土支护承载能力的试验研究
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作者 肖明清 徐晨 +4 位作者 崔岚 盛谦 陈健 谢壁婷 吴鹏 《隧道建设(中英文)》 CSCD 北大核心 2024年第3期464-474,共11页
为验证总安全系数法中喷层的荷载结构模型及其安全系数计算方法,研制大型隧道结构模型试验系统,采取结构试验的方法,开展毛洞、不同厚度喷层以及二次衬砌的加载破坏试验。通过围岩和细砂材料的三轴试验明确模型试验中各材料的物理与力... 为验证总安全系数法中喷层的荷载结构模型及其安全系数计算方法,研制大型隧道结构模型试验系统,采取结构试验的方法,开展毛洞、不同厚度喷层以及二次衬砌的加载破坏试验。通过围岩和细砂材料的三轴试验明确模型试验中各材料的物理与力学参数,模拟毛洞、不同厚度喷层以及二次衬砌的加载破坏全过程,依据破坏状态明确喷层与二次衬砌的设计承载能力,试验中监测围岩应力应变、喷层内外侧应变和喷层位移,结合监测结果分析喷层与二次衬砌在承载过程中的变形特征与受力特征,明晰喷层与二次衬砌的承载机制,并与总安全系数法理论计算结果进行对比分析。结果表明:1)在试验断面条件下喷层受力状态为小偏心受压,喷层与围岩之间的粘结能有效传递剪力,从而减少了喷层的弯矩,有利于充分发挥喷层的抗压强度,同厚度情况下喷层的设计承载力要高于二次衬砌;2)试验得到的厚度为2 cm和4 cm喷层的设计承载力比总安全系数法理论计算结果分别大27.0%和22.9%,表明总安全系数法的喷层承载力计算模型是合理的,并具有合适的安全性。 展开更多
关键词 隧道 支护结构设计 喷射混凝土支护 模型试验 总安全系数法 破坏试验 承载能力
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隧道支护工字型钢与喷射混凝土粘结滑移性能研究
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作者 路军富 李旻昊 +1 位作者 冉迅 陈龙 《工程力学》 EI CSCD 北大核心 2024年第9期167-178,共12页
工字型钢与喷射混凝土的粘结滑移性能对隧道初期支护的协同变形,整体承载能力具有重要影响。该文进行了自然粘结和焊接栓钉两组对照的推出试验,观察试件的破坏特征,获取粘结滑移曲线。在此基础上分析试件的粘结滑移性能,通过函数建立了... 工字型钢与喷射混凝土的粘结滑移性能对隧道初期支护的协同变形,整体承载能力具有重要影响。该文进行了自然粘结和焊接栓钉两组对照的推出试验,观察试件的破坏特征,获取粘结滑移曲线。在此基础上分析试件的粘结滑移性能,通过函数建立了自然粘结和焊接栓钉试件的粘结滑移本构模型,并提出了特征值的计算公式。试验结果表明:自然粘结试件的破坏模式为纵向劈裂破坏,焊接栓钉试件为拉裂破坏,拉裂缝位置沿栓钉横向排列方向;试件的荷载-裂缝宽度曲线与平均粘结强度-滑移曲线变化规律基本一致,可分为四段:无滑移段、斜线上升段、曲线下降段和水平残余段;在型钢腹板增加栓钉连接件,能有效提高型钢喷射混凝土的特征粘结强度。试验曲线与本构模型曲线对比拟合较高,表明该文提出的本构模型具有较高的精度。研究结果对于隧道工字型钢与喷射混凝土支护结构破坏特征研究及设计提供理论支持。 展开更多
关键词 隧道支护 组合结构 粘结滑移性能 本构关系 栓钉连接件
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基坑开挖导致邻近既有隧道变形的主动控制研究
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作者 苏栋 张小妹 +2 位作者 张国涛 雷国平 陈湘生 《建筑科学与工程学报》 CAS 北大核心 2024年第4期130-138,共9页
采用有限元分析方法对新型支撑轴力主动控制系统进行了研究,提出了一种支撑轴力设计方法;在对支撑不施加主动轴力的情况下,研究了花岗岩残积土地层中基坑开挖对既有隧道的影响,根据基坑侧边不同位置隧道在基坑开挖作用下的位移划分了基... 采用有限元分析方法对新型支撑轴力主动控制系统进行了研究,提出了一种支撑轴力设计方法;在对支撑不施加主动轴力的情况下,研究了花岗岩残积土地层中基坑开挖对既有隧道的影响,根据基坑侧边不同位置隧道在基坑开挖作用下的位移划分了基坑开挖影响区;基于提出的轴力设计方法,研究了基坑开挖过程中支撑轴力主动控制对既有隧道位移的影响规律;获得了隧道位移控制到预警值10 mm以下的临界控制比,分析了其在不同隧道位置时的分布规律。结果表明:该地层中的影响区范围相对已有研究的影响区更小;隧道位移与地连墙位移的控制比近似呈正比关系;基坑腰部0.6倍挖深位置附近隧道的水平位移需进行最严格的控制,靠近基坑且深度较深的区域通过水平位移控制得到的临界控制比更小,应以隧道水平位移控制为主,而远离基坑且深度较浅的区域应以隧道竖向位移控制为主;花岗岩残积土中的基坑开挖影响区以及对临界控制比的量化研究成果可为类似工程提供参考。 展开更多
关键词 基坑 隧道位移 支撑轴力 主动控制系统
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极高地应力软岩隧道非对称变形机理及支护优化研究 被引量:2
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作者 陈志敏 赵吉万 +3 位作者 龚军 陈宇飞 李增印 孙胜旗 《防灾减灾工程学报》 CSCD 北大核心 2024年第1期109-119,共11页
针对极大断面公路隧道施工中出现的非对称大变形问题,考虑高地应力第一主应力与隧道轴线关系、层状软岩夹层与互层状态、掌子面软岩空间不对称、地下水等因素,基于对工程地质条件、围岩与支护结构失效及破坏特征的分析,结合岩样物理力... 针对极大断面公路隧道施工中出现的非对称大变形问题,考虑高地应力第一主应力与隧道轴线关系、层状软岩夹层与互层状态、掌子面软岩空间不对称、地下水等因素,基于对工程地质条件、围岩与支护结构失效及破坏特征的分析,结合岩样物理力学特性室内试验研究及地应力实测情况,探究了非对称大变形形成机理并提出针对性的支护结果优化方案。结果表明:高地应力层状软岩隧道围岩不对称变形是在岩层倾角α、最大水平主应力与隧道轴线夹角β和岩层夹角γ、围岩岩性和地下水综合作用下的大变形,围岩不对称部位由以上几种因素共同决定;当主应力σ1与隧道轴线既不垂直也不平行时,会产生挤压性偏压构造水平地应力,使隧道横断面侧向受力不对称,发生偏压性非对称大变形;通过改变锚杆的布设方式、提高超前注浆小导管的长度和刚度、喷射临时封闭、在防水板与喷射砼间增加高密度橡塑海绵板缓冲层等措施,可以有效的减少变形量,防止围岩因开挖扰动而松动和坍塌。 展开更多
关键词 极高地应力 软岩隧道 非对称变形 支护优化
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不等跨十车道四连拱隧道施工全过程支护结构受力特征现场测试研究
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作者 阳军生 汤冲 +3 位作者 柏署 谢亦朋 李雨哲 杨磊 《岩土工程学报》 EI CAS CSCD 北大核心 2024年第10期2030-2040,共11页
多连拱隧道开挖洞室多、跨度大,施工过程中荷载转换频繁,支护结构受力特征复杂,对多连拱隧道支护结构受力开展现场测试研究具有重要意义。依托长沙观音岩不等跨四连拱隧道工程,选取典型断面对各洞室初支钢拱架、二次衬砌结构进行施工全... 多连拱隧道开挖洞室多、跨度大,施工过程中荷载转换频繁,支护结构受力特征复杂,对多连拱隧道支护结构受力开展现场测试研究具有重要意义。依托长沙观音岩不等跨四连拱隧道工程,选取典型断面对各洞室初支钢拱架、二次衬砌结构进行施工全过程应力监测,以获得复杂施工步序下支护结构受力特征。测试结果表明:观音岩隧道施工中,先行主洞较后行洞室承担的围岩压力更大,右主洞、左右辅洞开挖顺序居后,施工扰动次数较少,支护结构内力较小;各洞室中,初支钢拱架内力整体均呈“左小右大”的非对称分布特征,其最大轴向压力402.71 kN、最大弯矩7.97kN·m出现在左主洞的右拱脚处,二衬内力整体非对称程度较低,只以左主洞呈显著非对称分布,其余洞室呈整体对称分布;先行左主洞支护结构的内力扰动主要由受后行邻洞的开挖影响所产生,后行右主洞、左辅洞开挖支护阶段,左主洞初支钢拱架、二衬结构绝大部分位置其内力增量超过总增量的一半;采用“先主后辅,左主先行”施工方案,施工全过程支护结构的安全性均满足规范要求,支护结构设计和施工措施合理。研究成果可为复杂条件下多连拱隧道的设计与施工提供借鉴。 展开更多
关键词 四连拱隧道 支护结构 现场测试 受力特征 安全性评价
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基于围岩支护特征运营隧道病害分析与治理
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作者 王悦 王清江 《山西建筑》 2024年第18期153-155,198,共4页
隧道结构病害已成为困扰隧道运营的主要问题,隧道衬砌产生病害的直接原因是隧道结构所处应力场改变,结构承受的荷载大于结构承载能力引起的变异。隧道建设管理协同性差及智能化管理程度不够等原因也是造成隧道结构产生病害的主要原因。... 隧道结构病害已成为困扰隧道运营的主要问题,隧道衬砌产生病害的直接原因是隧道结构所处应力场改变,结构承受的荷载大于结构承载能力引起的变异。隧道建设管理协同性差及智能化管理程度不够等原因也是造成隧道结构产生病害的主要原因。采取隧道结构概念分析方法对隧道围岩塌方集中冲击荷载及围岩蠕变劣化持续荷载工况下围岩支护特征进行了分析,提出了隧道病害综合治理、隧道全寿命周期病害治理协同机制构建及隧道病害治理建养一体智能化技术思路,为隧道工程建设及运营管控提供参考借鉴。 展开更多
关键词 隧道 围岩支护 特征曲线 病害 治理
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盾构机始发井深基坑力学和变形特性离心模型试验研究 被引量:1
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作者 孙慧 李波 +1 位作者 王志鹏 王帅 《岩土工程学报》 EI CAS CSCD 北大核心 2024年第S01期244-248,共5页
为探究盾构机始发井深基坑开挖过程中周边土体的应力、变形和土压力分布规律,通过对工程原型进行概化,在典型土层条件下,采用停机-开挖-支护的模拟方式开展了方形基坑和圆形基坑两种方案共2组离心模型试验,从地连墙的弯矩和其后土体的... 为探究盾构机始发井深基坑开挖过程中周边土体的应力、变形和土压力分布规律,通过对工程原型进行概化,在典型土层条件下,采用停机-开挖-支护的模拟方式开展了方形基坑和圆形基坑两种方案共2组离心模型试验,从地连墙的弯矩和其后土体的水平位移、基坑外侧土压力分布以及地表沉降等角度,对比分析了两种盾构机始发井深基坑开挖过程的工程特性。结果表明:地面沉降随基坑开挖深度增大逐渐增加,形成沉降槽状;地连墙土压力变化呈非线性,随着基坑开挖不断深入的,离地表较近处的土压力逐渐变大,而深处的土压力则逐渐减小;在第5步开挖时2组模型地下连续墙水平位移均达到最大值,圆形基坑是方形基坑的1.4倍,同时地连墙的弯矩也达到最大值,圆形基坑比方形基坑小320 kN·m。研究成果可为深埋隧道深基坑的优化设计和开挖提供指导。 展开更多
关键词 盾构机始发井 深基坑 支护结构 离心模型 变形 弯矩 土压力
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深埋老黄土隧道支护限阻器力学特性及其应用研究
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作者 申志军 王刚 +1 位作者 仇文革 王海彦 《铁道学报》 EI CAS CSCD 北大核心 2024年第4期194-204,共11页
为深入探究基于限阻器的隧道让压支护,即限阻支护的受力特征,基于室内试验结果,采用数值计算和数据拟合的方法,系统阐明了限阻器的力学性能和本构关系,提出限阻支护的数值模拟方法;并结合工程应用,分析不同参数下限阻支护的变形和受力... 为深入探究基于限阻器的隧道让压支护,即限阻支护的受力特征,基于室内试验结果,采用数值计算和数据拟合的方法,系统阐明了限阻器的力学性能和本构关系,提出限阻支护的数值模拟方法;并结合工程应用,分析不同参数下限阻支护的变形和受力特征。结果表明:限阻器的力学性能与竖板的高度和厚度相关,引入预制弯弧可使限阻器性能可控;限阻器采用应变软化/硬化实体单元和弹性正交异性膜单元模拟;限阻器较小的恒阻值降低了限阻支护的轴力但同时也增大了弯矩,有利于小偏心受压破坏防治但增加了大偏心受压破坏风险;限阻器的合理压缩量为7~12 cm,建议在工程应用中对限阻器做降高、增厚和弯弧优化,可进一步增效降本。 展开更多
关键词 黄土隧道 大变形 限阻器 让压支护 受力特征
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隧道管棚支护承载特性及支护参数试验研究
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作者 龚伦 郭晓航 +2 位作者 王立川 杨继康 孙地爽 《隧道建设(中英文)》 CSCD 北大核心 2024年第8期1554-1566,共13页
为探究隧道管棚注浆钢管不同支护参数对管棚支护承载能力的影响,引入Pasternak双参数模型构建出更符合实际情况的管棚支护力学模型,通过多组室内试验,对管棚在不同注浆钢管管径、壁厚、注浆饱满度及加设钢筋笼条件下的承载能力进行定量... 为探究隧道管棚注浆钢管不同支护参数对管棚支护承载能力的影响,引入Pasternak双参数模型构建出更符合实际情况的管棚支护力学模型,通过多组室内试验,对管棚在不同注浆钢管管径、壁厚、注浆饱满度及加设钢筋笼条件下的承载能力进行定量研究。研究表明:1)管棚注浆钢管支护参数中,对管棚承载能力的影响排序为:管径>注浆饱满度>壁厚>钢筋笼。2)增大管棚注浆钢管管径可大幅提高管棚的承载能力,相比管径为108 mm的管棚,管径为159、219、299 mm时管棚承载能力分别增大183.58%、398.62%、874.86%。3)管棚钢管注浆不饱满会较大程度削弱管棚的承载能力,钢管注浆饱满度由100%降至75%、50%时,管棚承载能力分别降低29.8%、34.5%,注浆饱满度为50%时管棚的承载能力与未注浆时相差不大。4)管棚钢管壁厚和钢筋笼加设与否对管棚的承载能力影响较小。因此,在实际工程中,可通过增大管棚钢管管径提升管棚的承载能力,通过减小管棚钢管壁厚及不加设钢筋笼节约用钢量。 展开更多
关键词 隧道 管棚 支护参数 承载能力 管径 壁厚 注浆饱满度 钢筋笼
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西(宁)成(都)铁路高地应力节理发育软岩地层隧道支护体系研究 被引量:2
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作者 贺思悦 李国良 +2 位作者 邢培刚 何永旺 符亚鹏 《铁道标准设计》 北大核心 2024年第5期106-112,共7页
为保证西成铁路高地应力节理发育软岩大变形隧道安全修建,采用现场勘察、室内试验、地应力测试、工程类比、数值模拟等方法展开研究,结果表明,西成铁路与毗邻兰渝线地质条件类似,均以二叠系、三叠系板岩与砂岩为主,层理清晰、节理裂隙发... 为保证西成铁路高地应力节理发育软岩大变形隧道安全修建,采用现场勘察、室内试验、地应力测试、工程类比、数值模拟等方法展开研究,结果表明,西成铁路与毗邻兰渝线地质条件类似,均以二叠系、三叠系板岩与砂岩为主,层理清晰、节理裂隙发育,地应力以水平主应力为主导,水平主应力在10~30 MPa之间,竖直主应力在4~13 MPa之间,有较强水平构造应力作用,兰渝线控制围岩变形主要采用增加预留变形量、自进式长锚杆、钢花管加固、增加初支及衬砌刚度、钢纤维喷射混凝土等技术措施。在此基础上针对西成铁路节理发育软岩大变形主要发生在垂直节理倾角方向上的特点,提出首先增大矢跨比,然后增大钢拱架刚度,对于Ⅲ级大变形在垂直节理方向设置预应力锚索的非对称大变形隧道支护体系,该支护体系相比传统支护体系能够减小13.8%~21.2%软岩变形,对于控制节理发育软岩变形效果良好。 展开更多
关键词 铁路隧道 软岩隧道 软岩大变形 节理发育软岩 深部隧道 支护体系 变形控制
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锚杆钻车运行中支护承载结构及围岩受力变形分析
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作者 王雁冰 梅洪嘉 +3 位作者 张京泉 李凯 刘珍 李杨 《安徽理工大学学报(自然科学版)》 CAS 2024年第1期1-11,共11页
目的针对单轨液压锚杆钻车运行过程中支护承载结构及围岩受力变形难以观测分析的问题。方法利用研发的CMMD4-35煤矿用单轨液压锚杆钻车,结合长城五矿1902S回风巷巷道现场情况综合分析钻车在大断面大倾角巷道动态运行的支护、承载及围岩... 目的针对单轨液压锚杆钻车运行过程中支护承载结构及围岩受力变形难以观测分析的问题。方法利用研发的CMMD4-35煤矿用单轨液压锚杆钻车,结合长城五矿1902S回风巷巷道现场情况综合分析钻车在大断面大倾角巷道动态运行的支护、承载及围岩协同受力变形特征。结果研究表明,钻车运行过程中吊挂板的受力变形在悬吊点处均达到峰值,工字钢在悬吊点的部分位移最小,与钻车直接接触的部分受力最大;锚索中部主要受到拉应力,靠近巷道一侧主要受到剪应力,而巷道两帮的锚杆拉应力主要分布在靠近巷道内部一侧;巷道顶板悬吊点处位移最大,两帮靠近顶板位移高于底板处,而巷道偏向低帮处底板的位移大于高帮处;以单轨液压锚杆钻车为核心的新型配套工艺可以有效控制围岩变形,支护效果良好,比传统以掘锚一体机为中心的机器化工艺掘进效率更高。结论研究明确了CMMD4-35煤矿用单轨液压锚杆钻车在实际应用的可行性,解决了现有掘锚一体机难以在复杂地质条件下大断面煤巷自动化掘进支护的问题,提升了煤巷支护效果掘进效率,为CMMD4-35煤矿用单轨液压锚杆钻车的现场应用提供了理论依据。 展开更多
关键词 锚杆钻车 锚杆锚索 承载结构 支护结构 巷道围岩 受力变形
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