地震作用下预应力锚索加固顺层岩坡极限分析     

严敏嘉  夏元友  刘婷婷 《岩土力学》2018,39(7):2691-2698

针对地震作用下预应力锚索加固顺层岩坡典型模型,提出了一种地震作用下预应力锚索加固顺层岩坡的极限分析改进方法,该方法考虑了边坡极限状态时锚索的受力变化。基于岩体刚性假设并考虑滑移过程锚索受力变化,结合极限平衡法推导出边坡加固预应力锚索的受力变化公式;地震作用仅考虑地震波传播至滑动面时产生的透射波对边坡稳定性的影响,从功率的角度出发,结合极限分析上限法与强度折减法,考虑预应力锚索受力变化,推导出地震作用下预应力锚索加固顺层岩坡的动安全系数计算理论公式;结合算例,采用考虑与不考虑滑移过程锚索受力变化两种计算方法,分析了在不同入射波波幅、入射角度及滑动面黏聚力、内摩擦角条件下两种方法计算结果的差异。算例结果表明：考虑与不考虑滑移过程锚索受力变化计算方法,计算得出的动安全系数变化规律一致,但考虑滑移过程锚索受力变化的改进计算方法得出的动安全系数动态变化幅度明显更小,反映了锚索的抗震作用效果,可为地震作用下该类型岩坡的预应力锚索加固设计分析提供参考。  相似文献   

自适应锚索锚固岩质边坡地震动力响应分析     

许明  唐亚锋  刘先珊  罗斌  唐道勇 《岩土力学》2018,39(7):2379-2386

强震作用下常规锚索往往会因材料变形能力不足导致应力过载而被拉断,一旦锚索失效将直接危及整个锚固结构的安全。为研究自适应锚索的动力响应规律以及在自适应锚索支护下锚固边坡的动力特性,以新型抗震锚索为原型,设计自适应锚索锚固岩质边坡试验模型,并利用振动台试验系统对试验模型进行加载。试验中采用正弦波、天津波、EI波以及Taft波等4种地震波进行研究,监测锚索的应变和边坡动力响应。结果表明：锚索的轴力和地震波幅值、类型、地震激励频率等因素密切相关;锚固边坡坡面加速度及位移沿边坡高程均有不同程度的放大,相对于无锚索支护边坡,锚固边坡坡面加速度和位移峰值均有减小;自适应锚索随着预设滑移恒阻力的不同,锚索会产生不滑移、瞬间滑移、逐步滑移3种工况,对应的锚索应变时程曲线和锚固边坡动力安全系数时程具有显著不同的特征;自适应锚索滑移工况下,滑体的安全系数虽然有局部减小的阶段,但是锚固结构的安全储备较大,可适应边坡大变形和瞬态冲击荷载的作用。试验结果可为强震区路堑边坡的支护和自适应锚索抗震设计提供一定参考。  相似文献   

强风化软硬互层岩质高边坡监测与数值模拟     

周勇  王旭日  朱彦鹏  李京榜  蒋小奎 《岩土力学》2018,39(6):2249-2258

强风化软硬互层岩质高边坡属岩质边坡特殊情况,其结构面组成及性质复杂,与支护结构相互作用的复杂程度较高,相互影响较大,顺倾结构面临空等情况下破坏可能性很大。以兰永一级公路某深挖路堑边坡的治理工程为依托,对边坡支护过程中及支护结束后的锚杆应力、锚索内力、坡体位移进行了原位监测,并利用岩土分析软件PLAXIS,采用节理岩模块对该边坡工程进行了数值模拟分析。监测及模拟结果表明：该边坡由节理裂隙与岩层面形成折线形潜在滑面,且具有相同滑动可能性的潜在滑面不止一个;支护结构穿透组成滑面折线的任何折线段部分均对结构面稳定有显著影响,但支护结构穿透泥岩面对结构面的影响较穿透节理裂隙更大;支护锚索预应力变化具有一定规律,预应力变化过程对坡体位移及支护结构内力具有一定影响;坡体的主动变形对支护结构内力的影响较坡体被动变形大,结构面产生滑动趋势对坡面位移影响的敏感程度较支护结构内力影响的敏感程度低。该边坡支护稳定,支护设计合理,可为同类边坡支护设计提供相应建议。  相似文献   

双锚固段新型锚索锚固性能研究及工程应用     

张玉芳  袁坤 《岩土力学》2018,39(Z1):461-468

为探究高路堤、深路堑边坡锚固系统耐久性以及锚固效果,研制了一种内外双锚固段新型锚索,从其结构设计、结构特点及锚固机理入手,分析其受力模式与计算方法,并通过室内足尺模型试验分析双锚固段新型锚索锚固效果,试验结果表明,（1）外锚固段有效的起到了双重锚固作用;（2）双锚固段锚索系统能有效避免因锚索失效导致的预应力损失;（3）整个锚固系统能实现反向自锁功能,与传统的锚索比,安全可靠性更高,能有效避免因锚索破坏突发灾难性的安全事故,长期性价比高;（4）工程实例验证石炭系岩关组砂岩、泥岩及深灰色灰岩呈互层地层外固段长度不少于8 m,才能有效地避免外锚头失效自由段预应力不损失。试验结果对正确分析双锚固段新型锚索加固作用机制和工程设计应用具有一定的参考价值。  相似文献   

压力型锚杆支护滑坡的地震动力响应特性研究   总被引：4，自引：4，他引：0  

李楠  汪班桥  门玉明  张妙芝 《地质力学学报》2018,24(4):490-497

为研究地震作用下锚固滑坡的动力响应特征及压力型锚杆的受力机制,采用ABAQUS有限元软件建立了压力型锚杆联合格构梁支护的锚固滑坡模型,在此基础上,分析了锚固滑坡的加速度响应规律、地震动参数对加速度响应的影响以及压力型锚杆的受力特征等。结果表明:地震作用下锚固滑坡具有明显的高程放大效应,坡顶响应最强;不同类型的地震波作用时,由于其频谱特性的差异,锚固滑坡的加速度响应不同,锚固滑坡对输入地震波的低频段存在放大作用,对高频段具有滤波作用;随地震波幅值的增大,锚固滑坡的加速度响应呈先减小后增大的趋势。对于同一根锚杆而言,锚杆杆体轴力分布较均匀;对于同列不同排的锚杆而言,各排锚杆杆体的轴力值差异较大,自上而下呈"C"型分布,底排锚杆和顶排锚杆承担大部分荷载。研究结果对于压力型锚杆支护滑坡的抗震设计具有一定的指导意义。   相似文献   

老滑坡路段路堑开挖与超前支护效果     

李论基  姚青青  安玉科 《吉林大学学报(地球科学版)》2018,48(6):1767-1777

为防止老滑坡路段路堑开挖过程中出现路堑边坡失稳的问题,以在建某高速公路老滑坡段路堑失稳边坡为例,借助数值分析,进行了老滑坡路段路堑开挖与超前支护效果研究。结果表明：1）一般宽平台开挖模式能提高边坡的整体稳定性;然而,对于存在具有膨胀性质滑带土的牵引式老滑坡,坡脚采用宽平台刷坡减重不利于路堑边坡的稳定,必须要采取超前支护,如锚索、抗滑桩等,必要时要紧急采取清方卸载措施。2）锚索超前支护能够有效抑制边坡变形,需采用有效措施提高设置在坡脚处锚索的抗拉强度,如施加预应力等。3）抗滑桩超前支护应注意桩位、桩长、桩距的优化设计。建议抗滑桩采用锚拉,对桩前坡体中的滑带进行超前注浆,有必要沿老滑坡主滑方向布置多排抗滑桩,或采用h型桩体设计。  相似文献   

Investigation of drag crisis phenomenon using CFD methods     

《Applied Ocean Research》2017

When fluid flow passes a cylinder, the drag crisis phenomenon occurs between the sub-critical and the super-critical Reynolds numbers. The focus of the present studies was on the numerical prediction of the drag crisis based on CFD methods. In this work, block structured meshes with refined grids near the cylinder surface and in the downstream were employed. Both 2D and 3D simulations were performed using various turbulence models, including the SST k − ω model, the k − ϵ model, the SST with LCTM, the DES model, and the LES model. In the convergence studies, the effects of the grid size, the time step, the first grid size and the aspect ratio (for 3D simulations) on the solutions were examined. The errors due to spatial and time discretizations were quantified according to a V&V procedure. Validation studies were carried out for various Reynolds numbers between Re = 6.31 × 10⁴ and 7.57 × 10⁵. The averaged drag force, the RMS of lift force and the Strouhal number were compared with experimental data. The studies indicated that standard 2D and 3D RANS methods were inadequate to capture the drag crisis phenomenon. The LES method however has the potential to address the problem.  相似文献   

Toward a quick evaluation of the performance of gravity installed anchors in clay: Penetration and keying     

《Applied Ocean Research》2017

Gravity installed anchors (GIAs) are the most recent generation of anchoring solutions to moor floating facilities for deepwater oil and gas developments. Challenges associated with GIAs include predicting the initial embedment depth and evaluating the keying performance of the anchor. The former involves high soil strain rate due to large anchor penetration velocity, while the later influences the subsequent behavior and pullout capacity of the anchor. With the coupled Eulerian–Lagrangian method, three-dimensional large deformation finite element models are established to investigate the penetration and keying of GIAs in non-homogeneous clay. In the penetration model, a modified Tresca soil model is adopted to allow the effects of soil strain rate and strain softening, and user-defined hydrodynamic drag force and frictional resistance are introduced via concentrated forces. In the keying model, the anchor line effects are incorporated through a chain equation, and the keying, diving and pulling out behaviors of the anchor can all be replicated. Parametric studies are undertaken at first to quantify the effects of various factors on the performance of GIAs, especially on the penetration and keying behaviors. Based on the results of parametric studies, fitted formulae are proposed to give a quick evaluation of the anchor embedment depth after the installation, and the shackle horizontal displacement, shackle embedment loss and anchor inclination at the end of the keying. Comparative studies are also performed to verify the effectiveness of the fitted formulae.  相似文献   

Numerical benchmark studies on drag and lift coefficients of a marine riser at high Reynolds numbers     

《Applied Ocean Research》2017

Numerical benchmark studies on drag and lift coefficients of a marine riser have been organized by the 27th ITTC Ocean Engineering Committee. The purpose of the studies was to benchmark the capabilities of CFD methods through quantitative comparisons and validation studies against the model test results of a circular cylinder by MARIN. Studies were focused on the drag crisis phenomenon for the stationary smooth cylinder in the critical Reynolds number regime. Eight organizations have participated in the studies by using RANS, DES and LES methods. An overview of the model test results, test cases, submissions and comparison results are presented in this paper. Conclusions and recommendations are made for future studies.  相似文献   

Behavior of drag anchor in clay with linearly increasing shear strength under unidirectional and combined loading     

《Applied Ocean Research》2017

Drag anchor is a widely used economical anchor option for offshore floating structures. The anchor behavior under unidirectional loading and combined loading is important for anchor selection. The anchor behavior under combined loading, characterized by the yield envelope, can also be used for the prediction of anchor installation, which is still an issue in anchor design. However, most existing studies on anchor capacity are for plate anchors which focused only on the anchor pullout capacity in soil with uniform shear strength. The behavior of drag anchor under unidirectional and combined loading in soil with linearly increasing shear strength profile is seldom investigated. The current 2D finite element studies investigate the anchor behavior for a horizontal anchor fluke in clay with linearly increasing shear strength under unidirectional vertical, horizontal and rotational loadings first. Then based on the results of anchor unidirectional loading behavior, the yield envelopes for anchor under combined loading for both shallow and deep embedded flukes are studied. The effect of anchor embedment depth, soil non- homogeneity, soil overburden pressure and the soil/anchor interface breakaway conditions are studied to provide insight for drag anchor design.  相似文献