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Inverting the rock mass P-wave velocity field ahead of deep buried tunnel face while borehole drilling
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作者 Liu Liu Shaojun Li +5 位作者 Minzong Zheng Dong Wang Minghao Chen Junbo Zhou Tingzhou Yan Zhenming Shi 《International Journal of Mining Science and Technology》 SCIE EI CAS CSCD 2024年第5期681-697,共17页
Imaging the wave velocity field surrounding a borehole while drilling is a promising and urgently needed approach for extending the exploration range of the borehole point.This paper develops a drilling process detect... Imaging the wave velocity field surrounding a borehole while drilling is a promising and urgently needed approach for extending the exploration range of the borehole point.This paper develops a drilling process detection(DPD)system consisting of a multifunctional sensor and a pilot geophone installed at the top of the drilling rod,geophones at the tunnel face,a laser rangefinder,and an onsite computer.A weighted adjoint-state first arrival travel time tomography method is used to invert the P-wave velocity field of rock mass while borehole drilling.A field experiment in the ongoing construction of a deep buried tunnel in southwestern China demonstrated the DPD system and the tomography method.Time-frequency analysis of typical borehole drilling detection data shows that the impact drilling source is a pulse-like seismic exploration wavelet.A velocity field of the rock mass in a triangular area defined by the borehole trajectory and geophone receiving line can be obtained.Both the borehole core and optical image validate the inverted P-wave velocity field.A numerical simulation of a checkerboard benchmark model is used to test the tomography method.The rapid convergence of the misfits and consistent agreement between the inverted and observed travel times validate the P-wave velocity imaging. 展开更多
关键词 Deep buried tunnel Wave velocity field Borehole drilling Tomography Rock mass
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Support pressure assessment for deep buried railway tunnels using BQ-index 被引量:6
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作者 WANG Ming-nian WANG Zhi-long +3 位作者 TONG Jian-jun ZHANG Xiao DONG Yu-cang LIU Da-gang 《Journal of Central South University》 SCIE EI CAS CSCD 2021年第1期247-263,共17页
Estimation of support pressure is extremely important to the support system design and the construction safety of tunnels.At present,there are many methods for the estimation of support pressure based on different roc... Estimation of support pressure is extremely important to the support system design and the construction safety of tunnels.At present,there are many methods for the estimation of support pressure based on different rock mass classification systems,such as Q system,GSI system and RMR system.However,various rock mass classification systems are based on different tunnel geologic conditions in various regions.Therefore,each rock mass classification system has a certain regionality.In China,the BQ-Inex(BQ system)has been widely used in the field of rock engineering ever since its development.Unfortunately,there is still no estimation method of support pressure with BQ-index as parameters.Based on the field test data from 54 tunnels in China,a new empirical method considering BQ-Inex,tunnel span and rock weight is proposed to estimate the support pressure using multiple nonlinear regression analysis methods.And then the significance and necessity of support pressure estimation method for the safety of tunnel construction in China is explained through the comparison and analysis with the existing internationally widely used support pressure estimation methods of RMR system,Q system and GSI system.Finally,the empirical method of estimating the support pressure based on BQ-index was applied to designing the support system in the China’s high-speed railway tunnel—Zhengwan high-speed railway and the rationality of this method has been verified through the data of field test. 展开更多
关键词 rock mass classification support pressure deep buried tunnel field test multiple nonlinear regression analysis BQ-Index
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Comparison between the Seismic Performance of Buried Pipes and Pipes in a Utility Tunnel 被引量:2
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作者 Wei Liu Qianxiang Wu 《Computer Modeling in Engineering & Sciences》 SCIE EI 2020年第5期661-690,共30页
A utility tunnel system consists of pipes and ancillary facilities.In this paper,a finite element model of a concrete utility tunnel with pipes inside is established.Several tunnel segments were built to simulate a re... A utility tunnel system consists of pipes and ancillary facilities.In this paper,a finite element model of a concrete utility tunnel with pipes inside is established.Several tunnel segments were built to simulate a real utility tunnel,while the pipe was fixed by springs on the brackets in the utility tunnel.Using the discrete soil spring element to simulate the soil-structure interaction,actual earthquake records were adopted as excitation to analyze the seismic responses of pipes in a utility tunnel.Moreover,the influences of different parameters,including soil type,earthquake records,and field apparent wave velocity on the seismic responses of the utility tunnel and the pipes inside were studied.Finally,the seismic responses of buried pipes were analyzed and compared with those of pipes in a utility tunnel to evaluate the seismic performance of pipes for two working conditions. 展开更多
关键词 Pipe in utility tunnel buried pipe seismic performance
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Mechanical response features and failure process of soft surrounding rock around deeply buried three-centered arch tunnel 被引量:1
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作者 赵瑜 张志刚 《Journal of Central South University》 SCIE EI CAS CSCD 2015年第10期4064-4073,共10页
Due to the extreme complexity of mechanical response of soft surrounding rock(SR) around a tunnel under high geostatic stress conditions, the integration of physical and numerical modeling techniques was adopted. Base... Due to the extreme complexity of mechanical response of soft surrounding rock(SR) around a tunnel under high geostatic stress conditions, the integration of physical and numerical modeling techniques was adopted. Based on the similarity theory, new composite-similar material was developed, which showed good agreement with the similarity relation and successfully simulated physico-mechanical properties(PMP) of deep buried soft rock. And the 800 mm×800 mm×200 mm physical model(PM) was conducted, in which the endoscopic camera technique was adopted to track the entire process of failure of the model all the time. The experimental results indicate that the deformation of SR around a underground cavern possessed the characteristics of development by stages and in delay, and the initial damage of SR could induce rapid failure in the later stage, and the whole process could be divided into three stages, including the localized extension of crack(the horizontal load(HL) was in the range of 130 k N to 170 k N, the vertical load(VL) was in the range of 119 k N to 153.8 k N), rapid crack coalescence(the HL was in the range of 170 k N to 210 k N, the VL was in the range of 153.8 k N to 182.5 k N) and residual strength(the HL was greater than 210 k N, the VL was greater than 182.5 k N). Under the high stress conditions, the phenomenon of deformation localization in the SR became serious and different space positions show different deformation characteristics. In order to further explore the deformation localization and progressive failure phenomenon of soft SR around the deeply buried tunnel, applying the analysis software of FLAC3 D three-dimensional explicit finite-difference method, based on the composite strain-softening model of Mohr-Coulomb shear failure and tensile failure, the calculation method of large deformation was adopted. Then, the comparative analysis between the PM experiment and numerical simulation of the three centered arch tunnels was implemented and the relationship of deformation localization and progressive failure of SR around a tunnel under high stress conditions was discussed. 展开更多
关键词 deeply buried tunnel physical model(PM) surrounding rock(SR) failure process
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Geostress Measurement for Deep-Buried Long Tunnel through Niba Mountain
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作者 邓林 邓荣贵 程强 《Journal of Southwest Jiaotong University(English Edition)》 2010年第1期27-31,共5页
In the geostress measurement for Niba Mountain on Ya'an-Lugu Expressway, results of Kaiser effect tests combined with focal mechanism solution were compared with those obtained by hydraulic fracturing method, both of... In the geostress measurement for Niba Mountain on Ya'an-Lugu Expressway, results of Kaiser effect tests combined with focal mechanism solution were compared with those obtained by hydraulic fracturing method, both of which are basically coincident. It is shown that the principal stress increases with burial depth ; the maximum principal stress is about 45 MPa, which is larger near fault zones because of stress concentration, and its direction ranges from N20°W to N75°W. 展开更多
关键词 Geostress Kaiser effect Focal mechanism solution Hydraulic fracturing method Deep buried tunnel
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Analysis of mechanical behaviors of big pipe roof for shallow buried large-span tunnel
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作者 Li Jian Tan Zhongsheng +1 位作者 Yu Yu Guo Xiaohong 《Engineering Sciences》 EI 2013年第6期32-37,共6页
A series of researches on mechanical behaviors of big pipe roof for shallow large-span loess tunnel were carried out based on the Wenxiang tunnel in Zhengzhou—Xi'an Special Passenger Railway. The longitudinal def... A series of researches on mechanical behaviors of big pipe roof for shallow large-span loess tunnel were carried out based on the Wenxiang tunnel in Zhengzhou—Xi'an Special Passenger Railway. The longitudinal deformations of the pipe roofs were monitored and the mechanical behaviors of the pipe roofs were analyzed at the test section. A new double-parameter elastic foundation beam model for pipe roof in shallow tunnels was put forward in Wenxiang tunnel. The measured values and the calculation results agreed well with each other,revealing the force-deformation law of big pipe roof in loess tunnel:At about 15 m in front of the excavating face,the pipe roof starts to bear the load;at about 15 m behind the excavating face,the force of the pipe roof tends to be stabilized;the longitudinal deformation of the whole pipe roofs is groove-shaped distribution,and the largest force of pipe roofs is at the excavating face. Simultaneously,the results also indicate that mechanical behaviors of pipe roof closely relate to the location of the excavation face,the footage of the tunnelling cycle and the mechanics parameters of pipe roof and rock. The conclusions can be reference for the design parameter optimization and the construction scheme selection of pipe roofs,and have been verified by the result of numerical analysis software FLAC3Dand deformation monitoring. 展开更多
关键词 shallow burying mining underpass construction loess tunnel pipe roof deformation monitoring mechanical behavior
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Test and damage assessment of shallow buried RC tunnel under explosion
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作者 Longyun Zhou Xiaojun Li +3 位作者 Qiushi Yan Shutao Li Song Chang Pengcheng Ren 《Underground Space》 SCIE EI CSCD 2024年第1期118-137,共20页
As a major element of the transportation network,tunnels are unavoidably threatened by accidental loads such as vehicle bombs and tank truck explosions.The goal of this research is to explore the dynamic characteristi... As a major element of the transportation network,tunnels are unavoidably threatened by accidental loads such as vehicle bombs and tank truck explosions.The goal of this research is to explore the dynamic characteristics and damage assessment of tunnel structures under contact blast loads.First,three scaled-down reinforced concrete tunnel models were made,and the explosion test and static loading test were carried out successively to evaluate the axial residual bearing capacity,axial displacement and failure mechanism of the tunnel.Secondly,the finite element model is built by utilizing LS-DYNA,and the reliability of the finite element method is confirmed by comparing the data of the explosion test with the static loading test.At the same time,the calculation method for damage coefficient and the classification criteria for damage grade based on axial residual bearing capacity are presented.Then,based on the finite element method,the propagation process of the explosion shock wave in the tunnel and the damage mechanism of the tunnel are investigated.Finally,seven explosion scenarios are developed,the damage degree of these seven tunnels under the blast load is quantitatively analyzed,and further anti-blast design ideas are put forth.The study in this article may give an intended reference for the damage assessment,anti-explosion design and strengthening work of reinforced concrete tunnels. 展开更多
关键词 Shallow buried tunnel Blast location Blast resistance Axial residual bearing capacity Damage assessment
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Study on calculation of rock pressure for ultra-shallow tunnel in poor surrounding rock and its tunneling procedure 被引量:4
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作者 Xiaojun Zhou Jinghe Wang Bentao Lin 《Journal of Modern Transportation》 2014年第1期1-11,共11页
A computational method of rock pressure applied to an ultra-shallow tunnel is presented by key block theory, and its mathematical formula is proposed according to a mechanical tunnel model with super-shallow depth. Th... A computational method of rock pressure applied to an ultra-shallow tunnel is presented by key block theory, and its mathematical formula is proposed according to a mechanical tunnel model with super-shallow depth. Theoretical analysis shows that the tunnel is subject to asymmetric rock pressure due to oblique topography. The rock pressure applied to the tunnel crown and sidewall is closely related to the surrounding rock bulk density, tunnel size, depth and angle of oblique ground slope. The rock pressure applied to the tunnel crown is much greater than that to the sidewalls, and the load applied to the left side-wall is also greater than that to the right sidewall. Mean-while, the safety of the lining for an ultra-shallow tunnel in strata with inclined surface is affected by rock pressure and tunnel support parameters. Steel pipe grouting from ground surface is used to consolidate the unfavorable surrounding rock before tunnel excavation, and the reinforcing scope is proposed according to the analysis of the asymmetric load induced by tunnel excavation in weak rock with inclined ground surface. The tunneling procedure of bench cut method with pipe roof protection is still discussed and carried out in this paper according to the special geological condition. The method and tunneling procedure have been successfully utilized to design and drive a real expressway tunnel. The practice in building the super-shallow tunnel&amp;nbsp;has proved the feasibility of the calculation method and tunneling procedure presented in this paper. 展开更多
关键词 ultra-shallow tunnel Asymmetric rockpressure Surrounding rock Rock treatment tunnelingmethod
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深埋岩溶隧道爆破开挖对围岩损伤及渗流特性的影响 被引量:2
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作者 罗忆 邓运辰 +4 位作者 林城 余亚桥 刘鑫 龚航里 李新平 《爆破》 CSCD 北大核心 2024年第3期85-94,共10页
深埋岩溶隧道开挖会造成围岩特殊的损伤破坏形式,并且损伤区也会影响围岩渗流场及隧道边界的涌水状况,对深埋岩溶隧道爆破开挖作用下围岩的损伤及渗流特性有重要的研究意义。为了研究爆破开挖对深埋岩溶隧道围岩损伤及渗流的影响规律,基... 深埋岩溶隧道开挖会造成围岩特殊的损伤破坏形式,并且损伤区也会影响围岩渗流场及隧道边界的涌水状况,对深埋岩溶隧道爆破开挖作用下围岩的损伤及渗流特性有重要的研究意义。为了研究爆破开挖对深埋岩溶隧道围岩损伤及渗流的影响规律,基于COMSOL Multiphysics软件建立数值模型并嵌入应力-渗流-损伤耦合方程式进行计算,采用解析法计算了简化条件下岩溶隧道开挖时围岩的应力分布,并与数值计算结果进行比较。结果表明:解析法与数值法计算的围岩应力分布有一致性,爆炸荷载使靠近溶洞侧隧道肩部及脚部区域会产生较大的拉应力;爆破后会在隔水岩柱形成“齿”状损伤区,同时引起肩部及脚部区域流速的增加,其可作为判断溶洞方位的参考依据;溶洞净距减小、洞径及水压增加会引起“齿”延伸倾角及最大涌水位置变化、隧道边界涌水量的增加,可根据“齿”延伸方向判断损伤区检测的合理方位,根据最大涌水位置变化、隧道边界涌水量的变化,合理调整涌水防治措施强度及重点防治部位。研究成果可为溶洞位置判定、隧道损伤区检测以及边界涌水防治措施提供参考。 展开更多
关键词 深埋隧道 溶洞 隔水岩柱 损伤 边界渗流
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浅埋暗挖交叉相贯隧道施工力学行为试验研究
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作者 崔凌岳 王福文 孙铁成 《建筑科学与工程学报》 CAS 北大核心 2024年第2期115-123,共9页
为完善浅埋暗挖交叉相贯隧道在施工过程中的受力形式及变形特征,依托青岛某地铁工程,根据所选地铁车站的地质条件及衬砌结构特点浇筑衬砌模型并配制围岩相似材料,利用模型试验对采用全断面法在Ⅴ级围岩环境下进行的风道和车站主体开挖... 为完善浅埋暗挖交叉相贯隧道在施工过程中的受力形式及变形特征,依托青岛某地铁工程,根据所选地铁车站的地质条件及衬砌结构特点浇筑衬砌模型并配制围岩相似材料,利用模型试验对采用全断面法在Ⅴ级围岩环境下进行的风道和车站主体开挖过程的力学行为展开研究,并从隧道衬砌结构变形及地层内部位移变化规律两方面分析了浅埋暗挖交叉相贯隧道全断面开挖施工的力学行为。结果表明:对于交叉相贯位置处的隧道结构,已有隧道结构将改变后续施工隧道衬砌结构应变最大值及其出现位置;位于交叉相贯隧道结构附近不同象限内的围岩分别处于水平变形累加区和往复区;地表竖向变形最大点位于后续施工的车站上方且与交叉相贯位置存在一定距离,而在交叉相贯位置处的地表竖向变形值稍小;模型试验明确了交叉相贯隧道在施工过程中围岩及衬砌结构的变形特征,给出了隧道结构地表最大变形与施工步序间的时空关系;研究结果可为相关交叉相贯隧道结构的施工及设计提供依据。 展开更多
关键词 地下结构 交叉相贯隧道 模型试验 浅埋暗挖 地表沉降
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黄土盾构隧道开挖围岩扰动特性模型试验研究
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作者 韩兴博 陈子明 +3 位作者 叶飞 梁晓明 冯浩岚 夏天晗 《岩土工程学报》 EI CAS CSCD 北大核心 2024年第5期968-977,共10页
为了探究不同含水率和埋深等工况下的黄土盾构隧道开挖对围岩的扰动作用特征,采用相似模型试验,首先通过三轴试验测定了不同含水率下原状黄土物理参数及强度指标,通过大量试配得到了不同含水率下与原状黄土强度指标参数相似的试验用土... 为了探究不同含水率和埋深等工况下的黄土盾构隧道开挖对围岩的扰动作用特征,采用相似模型试验,首先通过三轴试验测定了不同含水率下原状黄土物理参数及强度指标,通过大量试配得到了不同含水率下与原状黄土强度指标参数相似的试验用土。其后,考虑盾构隧道盾尾间隙特征,开展不同含水率及埋深等组合工况下盾构开挖模拟试验,通过微型土压力传感器、百分表等监测元件以及数字图像技术等手段,分析了不同工况下地层变形、地表沉降和围岩应力的变化规律。研究发现:含水率较低时,围岩的自稳能力强;含水率越高,埋深越大,开挖对地层的扰动作用也越大;地表最大沉降值与含水率呈正相关,与埋深呈负相关;围岩剩余应力随含水率和埋深的增大而增大,但当含水率增大至一定值(26.6%)时,围岩剩余应力骤减;基于不同含水率下的围岩应力及变形发展规律,可将黄土含水率分为自稳、形变以及松动含水率,基于含水率和埋深引起的围岩松动情况,可将不同工况下的黄土盾构隧道围岩压力作用模式按照形变压力和松动压力计算,以更加适应黄土地层的特性。 展开更多
关键词 黄土盾构隧道 相似模型试验 含水率 埋深 围岩变形 应力
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砂卵石地层浅埋地铁车站暗挖施工关键技术
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作者 戴志仁 胡瑞青 +1 位作者 杨自刚 李小强 《铁道工程学报》 EI CSCD 北大核心 2024年第10期83-89,共7页
研究目的:针对富水砂卵石地层地铁车站明挖法施工面临的道路交通问题,本文依托成都富水砂卵石地层首次采用暗挖法施工地铁车站的成功案例,对暗挖法施工关键工艺开展研究,指明了暗挖导洞设置及其开挖时序、地层超前预加固方式、初期支护... 研究目的:针对富水砂卵石地层地铁车站明挖法施工面临的道路交通问题,本文依托成都富水砂卵石地层首次采用暗挖法施工地铁车站的成功案例,对暗挖法施工关键工艺开展研究,指明了暗挖导洞设置及其开挖时序、地层超前预加固方式、初期支护类型、永临结合钢管柱以及拱形盖板扣拱等关键工艺,明确了富水砂卵石地层浅埋大跨地铁车站首次采用暗挖法施工的可行性。研究结论:(1)基于“化整为零”的思路,借助大刚度管幕超前支护,明确了导洞设置原则,采用多导洞法实施钢立柱与盖板(顶板)后,可按盖挖法理念完成超浅覆土下的地铁车站暗挖施工;(2)浅覆土管幕打设精度与地层扰动控制是富水砂卵石地层沉降控制的关键,应遵循“精准定位、及时纠偏,欠土顶进、严控超挖,先低速后匀速”的基本原则;(3)基于初期支护主要以被动承载为主,格栅钢架经济性好、施工方便,喷混后抗弯刚度增幅将近8倍,且大于工字钢喷混后等效抗弯刚度,宜采用格栅钢架;(4)顶部预埋倒L形钢板的“蛇形”中立柱,可实现两侧衬砌结构的有效连接与水平向有效传力,液压反循环钻机可满足小净空条件下高精度永临结合钢管柱施作需要;(5)本研究结论可为类似地层暗挖法车站施工提供借鉴与参考。 展开更多
关键词 地铁车站 浅埋 大跨 暗挖法 导洞 管幕法
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浅埋偏压黄土隧道地表旋喷桩加固工艺参数研究
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作者 王志超 李伟 +2 位作者 黎盼 赵博涛 王毅斌 《公路交通科技》 CAS CSCD 北大核心 2024年第7期126-133,共8页
在黄土隧道修建过程中,其洞口段因浅埋偏压、围岩软弱破碎等通常需要进行加固处理。地表旋喷桩法具有适用范围广、加固效果好等优点,被广泛应用于隧道浅埋偏压段软弱围岩地表加固工程。以浅埋偏压黄土隧道进口段初期支护侵限为研究背景... 在黄土隧道修建过程中,其洞口段因浅埋偏压、围岩软弱破碎等通常需要进行加固处理。地表旋喷桩法具有适用范围广、加固效果好等优点,被广泛应用于隧道浅埋偏压段软弱围岩地表加固工程。以浅埋偏压黄土隧道进口段初期支护侵限为研究背景,介绍了现场地表旋喷桩加固的施工过程;建立了侵限段三维加固模型并分析了地表旋喷桩加固前后的变形控制效果,说明了处治措施的合理性;对比分析了现场监控量测结果,验证了数值模拟的准确性;开展了地表旋喷桩的工艺设计参数优化分析。结果表明:由于偏压作用,地表最大沉降值偏离隧道中心线,且拱顶中心线处沉降>右拱肩处沉降>左拱肩处沉降;施加地表旋喷桩对于减小地表沉降十分有效,地表最大沉降值减小了45.5%;采用地表旋喷桩加固处理后,拱顶处加固效果最为显著,较加固前沉降减小了57.9%,同时加固后左、右拱肩沉降差值减小了17.4%;建议隧道浅埋偏压段地表旋喷桩加固工艺设计参数:桩直径为0.4~0.6 m、桩间距为1.2 m、横向加固范围为1.5~2倍洞径、竖向加固范围为洞身两侧旋喷桩与隧道拱底平齐。 展开更多
关键词 隧道工程 地表加固 数值模拟 高压旋喷桩 浅埋偏压
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鲜水河构造带隧道高地应力区岩爆特性分析
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作者 冯涛 蒋良文 +3 位作者 袁东 林之恒 孟少伟 陈宇 《铁道工程学报》 EI CSCD 北大核心 2024年第8期74-78,85,共6页
研究目的:青藏高原持续隆升,导致鲜水河构造带及邻区高地应力特征突出,地应力场极其复杂,研究高地应力的孕灾特征有助于隧道岩爆的风险防控,特别是时滞型岩爆的孕灾和致灾机理的研究。本文阐述鲜水河构造带地貌、地层岩性、构造及地应... 研究目的:青藏高原持续隆升,导致鲜水河构造带及邻区高地应力特征突出,地应力场极其复杂,研究高地应力的孕灾特征有助于隧道岩爆的风险防控,特别是时滞型岩爆的孕灾和致灾机理的研究。本文阐述鲜水河构造带地貌、地层岩性、构造及地应力场特征的孕灾总体认识,通过对该区域隧道近10 km约1300次岩爆统计,从发生概率、等级、埋深、位置、时间、距离等多角度研究岩爆特征,对发生的5次时滞型岩爆和隧道时效性变化特征进行分析,展望后续岩爆研究的重点。研究结论:(1)鲜水河构造带及邻区受高地应力影响,隐伏小微构造发育且无规律,为岩爆创造了特殊的孕灾环境,岩爆发生的随机性大;(2)该区域隧洞岩爆等级以轻微岩爆为主,具有“分区破裂”和脆性变形特征,时滞型岩爆一定程度上具有“继承性”;(3)建议加强沟谷应力场低埋型岩爆和滞后型岩爆或硬岩潜在时效破坏的监测研究;(4)本文研究成果可为类似高地应力环境下岩爆预测和防控提供借鉴。 展开更多
关键词 鲜水河构造带 深埋隧道 高地应力特征 时滞型岩爆 施工岩爆特征 风险防控
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城市浅埋隧道自然排烟竖井临界间距研究
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作者 王洁 王璐 姜学鹏 《消防科学与技术》 CAS 北大核心 2024年第1期65-69,共5页
竖井间距会改变竖井内外压差,当竖井内外压差为0时,隧道火灾烟气将无法排出,此时竖井对应位置为竖井临界间距。由竖井内外口压差理论分析,给出竖井临界间距理论模型,再采用FDS模拟进行仿真验证。结果表明:设置竖井可明显降低隧道温度,... 竖井间距会改变竖井内外压差,当竖井内外压差为0时,隧道火灾烟气将无法排出,此时竖井对应位置为竖井临界间距。由竖井内外口压差理论分析,给出竖井临界间距理论模型,再采用FDS模拟进行仿真验证。结果表明:设置竖井可明显降低隧道温度,竖井间距为临界间距时,温度下降幅度接近150℃,人员疏散路径温度低于60℃,竖井排烟效率在55%~80%,可有效进行竖井排烟;当竖井间距大于竖井临界间距时,隧道内烟气压强小于竖井出口处风压,竖井排烟效率低于50%。 展开更多
关键词 城市浅埋隧道 竖井排烟 竖井临界间距模型 自然排烟
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降雨入渗对防军隧道浅埋小净距段围岩稳定性的影响
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作者 徐红玉 焦治豪 +1 位作者 毕志刚 李文杰 《河南科技大学学报(自然科学版)》 CAS 北大核心 2024年第3期69-76,87,共9页
为控制降雨入渗对浅埋小净距隧道围岩稳定性的影响,以义东高速公路防军隧道为依托,基于流固耦合理论和水土特征曲线,采用MIDAS GTS NX有限元软件建立浅埋小净距隧道数值模型,对雨季施工时的土体孔隙水压力、围岩变形特征和边仰坡安全系... 为控制降雨入渗对浅埋小净距隧道围岩稳定性的影响,以义东高速公路防军隧道为依托,基于流固耦合理论和水土特征曲线,采用MIDAS GTS NX有限元软件建立浅埋小净距隧道数值模型,对雨季施工时的土体孔隙水压力、围岩变形特征和边仰坡安全系数展开分析。结果表明:随着降雨入渗的持续,围岩及边仰坡土体基质吸力逐渐减小,其土体抗剪强度也随之降低,稳定性变差。经过7 d累积降雨,孔隙水压力增大趋势逐渐放缓,围岩变形达到最大值,工况1的拱顶沉降增大了21.48%,且边仰坡安全系数小于1,处于失稳状态。洞口段采取加固和排水措施来控制围岩的稳定性,边仰坡的安全系数较加固前提升了17.27%,取得了良好的效果,保证了隧道后期的安全施工。 展开更多
关键词 浅埋小净距隧道 降雨入渗 流固耦合 基质吸力 围岩变形
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浅埋偏压隧道不对称围岩压力数值迭代方法
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作者 李斌 陈其豪 《武汉理工大学学报(交通科学与工程版)》 2024年第4期718-724,共7页
文中根据围岩压力与衬砌节点支护反力的等效原理,提出一种浅埋偏压隧道不对称围岩压力数值迭代方法.该方法以隧道一侧竖向围岩压力作为求解目标,通过对传统二分法进行改进,使用FLAC3D内置的强度折减法,实现围岩压力反算过程全自动化,包... 文中根据围岩压力与衬砌节点支护反力的等效原理,提出一种浅埋偏压隧道不对称围岩压力数值迭代方法.该方法以隧道一侧竖向围岩压力作为求解目标,通过对传统二分法进行改进,使用FLAC3D内置的强度折减法,实现围岩压力反算过程全自动化,包括围岩稳定状态的自动判断、求解目标上下限的自动搜索、求解目标的自动迭代、以及围岩压力分布的自动换算,极大简化了分析流程,提高了分析的效率.此外,该方法不需要假定滑动面和破裂角,减少了确定围岩压力所需的条件,并降低了相关误差.通过一个算例解释了围岩压力的迭代过程,并将迭代结果与实测结果和规范计算结果进行对比.结果表明:数值迭代方法得到的围岩压力分布与实测结果较为吻合,可用于二次衬砌的内力计算、结构设计和服役状态评价.对围岩压力的影响因素进行敏感性分析,为降低偏压对衬砌的不利影响,应降低坡面角度,并适当提高隧道洞周土体强度. 展开更多
关键词 浅埋偏压隧道 围岩压力 数值迭代
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基于BIM技术的浅埋隧道无限元法数值研究
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作者 王安东 宋佳宁 姜留涛 《建筑技术开发》 2024年第8期75-78,共4页
近年来,BIM技术在交通运输基础工程领域的应用日益广泛,如地铁、高铁、公路、隧道等项目全生命周期的管理都有BIM技术的参与。本研究通过BIM软件–Revit建立浅埋隧道的信息模型,基于BIM信息模型,导入ABAQUS有限元分析软件,对越秀公园站... 近年来,BIM技术在交通运输基础工程领域的应用日益广泛,如地铁、高铁、公路、隧道等项目全生命周期的管理都有BIM技术的参与。本研究通过BIM软件–Revit建立浅埋隧道的信息模型,基于BIM信息模型,导入ABAQUS有限元分析软件,对越秀公园站浅埋暗挖多孔隧道进行有限元与无限元耦合模拟,验证了无限元在隧道数值模拟中的可行性。其次通过设置不同的工况,验证了无限元与有限元耦合模拟的准确性,并且研究了隧道的开挖对不同工况下,地表沉降和衬砌内力的影响,得出最优的开挖工序,为后续浅埋隧道的力学行为的研究提供借鉴。 展开更多
关键词 浅埋多孔隧道 有限元–无限元法 衬砌应力 地表沉降
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非线性破坏准则下浅埋隧道的稳定性分析
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作者 傅鹤林 常小兵 胡凯巽 《华南理工大学学报(自然科学版)》 EI CAS CSCD 北大核心 2024年第7期107-118,共12页
隧道围岩压力值是浅埋隧道设计计算的重要参数。为进一步提高围岩压力计算结果的可靠性,以传统浅埋隧道坍塌模型为基础,提出了圆弧滑移面破坏模式,同时基于非线性Mohr-Coulomb破坏准则,运用极限分析上限法推导了地震力作用下浅埋隧道围... 隧道围岩压力值是浅埋隧道设计计算的重要参数。为进一步提高围岩压力计算结果的可靠性,以传统浅埋隧道坍塌模型为基础,提出了圆弧滑移面破坏模式,同时基于非线性Mohr-Coulomb破坏准则,运用极限分析上限法推导了地震力作用下浅埋隧道围岩压力的计算公式,验证了计算结果的可靠性,并对影响因素进行了探讨。与实际工程和已有成果的对比分析证明了理论公式具有较高的可靠性和准确度。研究还发现:围岩压力受非线性系数和初始粘聚力的影响较为显著,非线性系数越大、初始粘聚力越小,围岩压力越大;随着待定参数K(水平围岩压力与竖向围岩压力的比值)的减小,水平围岩压力减小,竖向围岩压力增大;地震力对围岩压力的影响不容忽视,竖向地震力单独作用对围岩压力的影响最大,水平和竖向地震力共同作用的影响次之,而仅有水平地震力作用的影响最小。随着水平与竖向地震力系数的增大,围岩压力也在增大。分析结果对于大部分的隧道,尤其是易受地震影响的浅埋隧道研究具有较高的参考价值。 展开更多
关键词 浅埋隧道 围岩压力 非线性破坏准则 上限定理 拟静力法 圆弧滑移面
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