隧道超欠挖断面轮廓分形特征     

肖云华  陈剑平  张鹏  张丽 《吉林大学学报(地球科学版)》2010,40(1):153-158

对于极不规则的隧道围岩超欠挖轮廓,分形几何无疑是一个新思路。在测量数据的基础上,应用分形几何来定量描述围岩超欠挖轮廓线,表明隧道各类围岩的超欠挖曲线具有自相似性。在此基础上,进一步分析了各类围岩超欠挖曲线的分形维数与围岩类别之间的关系。研究表明,隧道围岩超欠挖曲线分形维数能较为直观地反映围岩类别,但其并不随着围岩类别的变化而呈线性变化;对于洞径一定的隧道,围岩超欠挖曲线的分形维数更能反映岩体结构和洞轴线之间的关系,这为准确预测掌子面前方围岩超欠挖情况奠定了理论基础。  相似文献   

实测坑透资料的层析成像特殊处理效果   总被引：2，自引：0，他引：2  

王琦 《煤田地质与勘探》2001,29(4):55-57

用坑透层析成像特殊处理算法对4个工作面的实测资料进行了处理,处理结果检测了算法的可行性、分辨率,检验了算法的稳定性和抗噪能力。   相似文献   

山岭隧道堵水限排围岩力学特性分析   总被引：10，自引：4，他引：6  

王秀英  谭忠盛  王梦恕  张弥 《岩土力学》2008,29(1):75-80

为了尽可能减少隧道长期大量排水带来的严重环境问题,高水位地区的深埋山岭隧道应采取“以堵为主,限量排放”即“堵水限排”的防排水设计准则。但在堵水限排情况下围岩的力学特性如何？是当前隧道衬砌结构设计急需解决的关键问题之一。首次建立了山岭隧道堵水限排情况下围岩力学特性分析的解析模型并进行了理论推导,分析了不同排水工况下围岩力学特性的变化并绘制了相应的围岩特征曲线,为堵水限排衬砌结构设计提供了理论依据。  相似文献   

小间距隧道爆破动力特性试验研究   总被引：5，自引：2，他引：3  

张庆松  李利平  李术才  丁万涛  洪卫良 《岩土力学》2008,29(10):2655-2660

分岔隧道是一种新型隧道结构形式。以漆树槽分岔隧道为工程背景,进行了掘进爆破的围岩震动效应试验,通过不同掏槽结构下爆破震动作用隧道围岩衬砌质点振动速度的频谱分析与质点振动速度幅值的分布情况分析,对小间距公路隧道混凝土衬砌及其围岩在爆破地震波作用下的力学特征进行论述,重点研究了小间距隧道中隔墙及爆破掌子面的震动特性及变化规律。试验与分析结果表明,（1）中墙迎爆侧为振速峰值区,以水平径向振速最大,且沿着中墙走向呈现规律性变化;（2）掏槽孔爆破产生的地震效应最为强烈,其震动强度是扩槽眼和周边眼的2倍左右;（3）衬砌振速主振频率主要分布在低频段,以20～95 Hz为集中频段,高频地震波衰减极快;（4）同一测试断面中最大振速峰值出现在拱顶和边墙中部位置的概率最大,且大小比较接近,爆破掌子面附近的振速不适合萨道夫斯基预测公式,受爆破夹制及自由面的影响较大。  相似文献   

水平及竖向地震共同作用下双线隧道的响应分析     

王杰  刘华北  邹炎  阮滨 《震灾防御技术》2020,15(4):670-683

基于有效的土-结相互作用有限元数值模拟方法,利用有限元软件ABAQUS对水平及竖向地震共同作用下双线盾构隧道的地震响应进行分析研究。地震动输入选取近场地震Loma、ChiChi、Mammoth和WoLong的基岩水平及竖向加速度时程记录。结果表明,不同近场地震记录对隧道结构的作用不同,隧道的地震反应与场地性质及地震动的频谱特性密切相关。对比隧道在水平及竖向地震动共同作用下的响应与单向水平地震动作用下的响应,发现隧道的最大地震附加内力及其分布均发生较大的变化,在隧道结构抗震设计中需引起重视。另外,分析中还考虑了在双向地震动共同作用下,隧道间距、土-结接触面的摩擦系数、土-结相对刚度、输入的地震记录和竖向地震动相对强度对隧道地震响应的影响等,研究结果对隧道工程的抗震设计具有一定的参考价值。  相似文献   

A finite strain solution for the elastoplastic ground response curve in tunnelling: rocks with non‐linear failure envelopes          下载免费PDF全文

Apostolos Vrakas 《国际地质力学数值与分析法杂志》2017,41(7):1077-1090

This paper generalizes the finite strain Coulomb solution of Vrakas and Anagnostou (Int J Numer Anal Meth Geomech 2014; 38(11): 1131–1148) for the classic tunnel mechanics problem of the ground response curve to elastoplastic grounds satisfying a non‐linear Mohr's failure criterion. A linear (Coulomb‐type) plastic potential function is used, leading to a non‐associated flow law, and edge plastic flow is considered in the plastic zone. The solution for a general non‐linear Mohr's failure criterion is semi‐analytical in that it requires the evaluation of definite integrals. In the special case of the Hoek–Brown criterion, however, these integrals are calculated analytically, resulting in a rigorous closed‐form series solution. The applicability of the derived solution is illustrated through the example of the Yacambú‐Quibor tunnel, where very large deformations were observed when crossing of weak graphitic phyllites. Copyright © 2016 John Wiley & Sons, Ltd.  相似文献   

Mechanism and countermeasures of preceding tunnel distortion induced by succeeding EPBS tunnelling in close proximity     

《Computers and Geotechnics》2015

Twin tunnels are frequently used to address the increasing transportation demands in large cities. To ensure the safety of twin tunnels in close proximity, it is often necessary to take protective measures that have not been well studied. Field monitoring was conducted for a project of twin earth pressure balance shield (EPBS) tunnels in typical soft ground. The preceding tunnel was reinforced by various measures, including trailer bracing, compensation grouting, artificial freezing and scaffold bracing. The entire deformation of the reinforced tunnel was recorded during the succeeding tunnelling process. A three dimensional finite-element method (FEM) model was established to simulate the entire process of twin EPBS tunnelling, particularly the reinforcement measures. The computed deformations of the reinforced tunnel were consistent with the measured data. Furthermore, the stress history and pore pressure of the surrounding soil were analysed to investigate the deformation mechanism of the tunnel. Both the measured and computed results indicate that although the face pressure of the succeeding tunnel was smaller than the earth pressure at rest, the preceding tunnel could still experience an inward horizontal convergence and a deflection away from the succeeding tunnel. These distortion modes were caused by the squeezing effect of the horizontal soil arch in front of the succeeding tunnel face. Finally, convergence and deflection indices were proposed to quantify and assess the effectiveness of the reinforcement measures. The trailer bracing, as an “in-tunnel” reinforcement technique, was found to be the most effective method for controlling tunnel convergence. However, artificial freezing as an “out-tunnel” reinforcement technique led to the largest reductions in tunnel deflection. A combination of both “in-tunnel” and “out-tunnel” reinforcements was recommended.  相似文献   

A finite strain closed‐form solution for the elastoplastic ground response curve in tunnelling     

Apostolos Vrakas  Georgios Anagnostou 《国际地质力学数值与分析法杂志》2014,38(11):1131-1148

The ground response to tunnel excavation is usually described in terms of the characteristic line of the ground (also called ‘ground response curve’, GRC), which relates the support pressure to the displacement of the tunnel wall. Under heavily squeezing conditions, very large convergences may take place, sometimes exceeding 10–20% of the excavated tunnel radius, whereas most of the existing formulations for the GRC are based on the infinitesimal deformation theory. This paper presents an exact closed‐form analytical solution for the ground response around cylindrical and spherical openings unloaded from isotropic and uniform stress states, incorporating finite deformations and linearly elastic‐perfectly plastic rock behaviour obeying the Mohr–Coulomb failure criterion with a non‐associated flow rule. Additionally, the influence of out‐of‐plane stress in the case of cylindrical cavities under plane‐strain conditions is examined. The solution is presented in the form of dimensionless design charts covering the practically relevant parameter range. Finally, an application example is included with reference to a section of the Gotthard Base tunnel crossing heavily squeezing ground. The expressions derived can be used for preliminary convergence assessments and as valuable benchmarks for finite strain numerical analyses. Copyright © 2014 John Wiley & Sons, Ltd.  相似文献   

A new closed‐form solution for analysis of unlined pressure tunnels under seepage forces     

Ahamad Fahimifar  Mohammad Reza Zareifard 《国际地质力学数值与分析法杂志》2013,37(11):1591-1613

In this study, a simplified analytical closed‐form solution, considering plane strain and axial symmetry conditions, for analysis of a circular pressure tunnel excavated underwater table, is developed. The method accounts for the seepage forces with the steady‐state flow and is based on the generalized effective stress law. To examine the effect of pore pressure variations and also the boundary conditions at the ground surface, the formulations are derived for different directions around the tunnel. The proposed method can be applied for analysis and design of pressure tunnels. Illustrative examples are given to demonstrate the performance of the proposed solution and also to examine the effect of seepage forces on the stability of tunnels. The simplified analytical solution derived in this study is compared with numerical analyses. It is concluded that the classic solutions (Lame's thick‐walled solution), considering the internal pressure as a mechanical load applied to the tunnel surface, are not applicable to pervious media and can result in an unsafe design. Copyright © 2012 John Wiley & Sons, Ltd.  相似文献   

Analytical solution of the harmonic waves diffraction by a cylindrical lined cavity in poroelastic saturated medium     

Y. S. Karinski  V. V. Shershnev  D. Z. Yankelevsky 《国际地质力学数值与分析法杂志》2007,31(5):667-689

This paper presents a model for the analysis of plane waves diffraction at a cavity in an infinite homogeneous poroelastic saturated medium, lined by a lining composed of four equal segments. An elastic boundary layer is placed between the cavity lining and the infinite porous medium. The boundary layer is simulated by ‘elastic boundary conditions’ in which the bulk matrix stress is proportional to the relative displacement between the lining and the surrounding medium matrix boundary. In addition, fluid impermeability through the intermediate layer is assumed. For the frequencies, that differ from the pseudoresonanse frequencies, the problem was reduced to the problem of an ideal elastic medium. A closed‐form analytical solution of the problem was obtained using Fourier–Bessel series, the convergence of which was proven. It was shown that the number of series terms required to obtain a desired level of accuracy can be determined in advance. The influence of the medium porosity on the medium dynamic stress concentration was studied. Copyright © 2006 John Wiley & Sons, Ltd.  相似文献