软土地区盾构施工对既有单桩工作性状的影响分区研究

为研究既有桩基位于拟建隧道周围不同位置时,隧道开挖对桩基产生的受力与变形规律,依托天津地铁3号线北站至铁东路站左线盾构区间项目,利用ABAQUS软件将隧道周围软土按照桩端径向、切向位置的不同划分为8个区,建立考虑软土修正剑桥本构关系的二维有限元模型,探讨隧道开挖后桩基分别处于设计荷载和极限荷载下的桩侧摩阻力和桩身位移变化规律,并建立隧道开挖对邻近单桩工作性状的影响分区。计算结果表明： 1）隧道开挖会使桩基近隧道侧产生负摩阻力,负摩阻力最大值随桩到隧道径向距离的减小而逐渐增大,随桩长的增大而逐渐增大; 2）隧道开挖会导致桩身极限侧摩阻力降低,当桩端位于隧道两侧分区时降幅较大,在10%~15%; 3）桩端分别位于隧道两侧、底部、顶部分区时,依次对桩身倾斜率、桩身挠曲变形和桩顶沉降的影响最显著; 4）提出能够对隧道开挖后既有单桩工作性状分区进行评价的指标,当桩端位于3区时,盾构隧道开挖造成单桩的综合影响程度最大,应加强施工监控措施。     

软岩隧道三维扫描变形监测技术的试验研究

为解决传统监测技术单点监测无法满足软岩隧道整体性变形监测的局限性,采用三维激光扫描技术进行软岩隧道整体性变形监测试验,从隧道结构的变形时间、变形空间分布及变形量进行整体分析。首先建立全站仪和三维激光扫描仪测量误差模型,分析三维扫描监测技术与传统隧道监测技术的特点,通过平面标靶和棱镜靶球精度试验得出平面标靶最佳入射角范围小于60°,棱镜靶球自动提取距离不大于45 m,作为测站设置和控制点布设的依据; 然后以渭武高速木寨岭隧道2号斜井工程为依托,开展软岩隧道三维扫描变形监测技术的试验研究。研究结果表明： 中台阶开挖支护前已发生较大变形,最大变形位置为左侧上台阶与中台阶交界处,空间分布呈左大右小,试验段最大累计变形达0.48 m,下台阶及时封闭成环及2层初期支护有利于变形控制。     

Analysis on the Characteristics and Development Trends of the Support Technology of High Ground Stress Tunnels in China北大核心CSCD

Combining the present situation and development trend of different tunnel support technologies at home and abroad, this paper analyzes the problems of rockburst in hard rock tunnels and large deformation in soft rock tunnels caused by high ground stress. It is concluded that: 1) regarding the rockburst problem, the current support technology is mainly influenced by the rock burst mechanism which is dominated by static factors, and so the used support components are generally of smaller deformation performance and "passive support" properties; 2) as the rockburst is the result of dynamic-static stress coupling, and only the anchor bolt has the "active support" attribute in the current "shotcrete+anchor bolt+wire net" support system, so the best support system should have the two functions of active support and energy release in terms of the rockburst problem, and the key focus of the research and development is anchorage members; 3) there are three main support types for large deformation in soft rock tunnels, e.g. the heavy support, layered support and yielding support. Among them, the heavy support system in underground cavern with large deformation is easy to induce excessive surrounding rock pressure, and so the applicable conditions are limited. The layered support system is still not the best choice due to its immature theoretical study, difficult determination of the thickness value and the installation time of each support layer and the interference to construction progress. With the characteristics of timely support and yielding while supporting, the yielding support system can give full play to the performance values of surrounding rocks and supporting materials, and make both of them reach the optimal state, so it is the best choice for supporting the soft rock tunnels with large deformations. © 2018, Editorial Office of "Modern Tunnelling Technology". All right reserved.     

Soil Body Deformation Caused by Construction of a Double-Line Shield Tunnel with Multiple Factors北大核心CSCD

Considering the influence of many factors (soil loss, frontal additional thrust, the friction force of the shield shell and the additional grouting force), a method for improving the uniform soil body movement model is pro-posed, and a mechanical calculation model is established to study the calculation method for soil body deformation caused by double-line parallel shield driving. Based on the Mindlin solutions of elastic mechanics, the theoretical solutions for soil body deformations caused by the last three factors are calculated; considering the uniform soil body movement model, the theoretical solutions for soil body deformations caused by soil loss are calculated, then the to-tal theoretical solutions for soil body deformations under multiple factors are obtained by means of superposition. The vertical surface settlement, vertical horizontal displacement, and vertical displacements of the soil body at different depths of Hangzhou Metro Line 1 are calculated to analyze the variation laws. Meanwhile the influential factors for horizontal displacement variation are studied. The research shows that with a change of depth, the settlement of the soil body changes within the scope of 10 to 13 m in the horizontal direction near where the maximum settlement occurs;the direction of the horizontal displacement of the soil body changes with a change of the positional relationship be-tween the calculation points and the tunnel; and with an increase of interval J for the two tunnels, the horizontal dis-placement of the soil body of a deep double-line tunnel decreases while the displacement near the surface changes slightly. © 2018, Editorial Office of "Modern Tunnelling Technology". All right reserved.     

组合型水泥粉煤灰碎石桩(CFG桩)复合地基在深厚软基处理中的应用

在深厚软土地基(fak≤100 kPa)上建造储罐等建筑物,承载力要求高、不均匀沉降变形要求严,若采用单一CFG桩复合地基加固,可能导致桩距过小或桩长太长,需要采用组合型复合地基,CFG桩+振冲碎石桩复合地基是组合型复合地基的一种。根据CFG桩+碎石桩组合型复合地基的加固机理,分析了其受力特性以及CFG桩和碎石桩的作用,研究表明CFG桩对提高地基承载力和减小沉降起控制作用。基于优化理论,建立了组合复合地基的优化设计方法。通过工程实例讨论了组合复合地基的优化设计方法,结果表明:复合地基的承载力、沉降量和经济效益均满足工程要求。     

软土地基中格形地下连续墙护岸前沿土体加固参数研究

格形地下连续墙是一种新型直立式护岸结构,整体刚度大,辅之以护岸前沿的软土地基加固,能减少墙体水平位移,确保工程结构和周边环境安全。以某电厂取水口护岸工程为例,介绍格形地下连续墙结构在护岸工程中的应用,利用有限元分析软件Plaxis3D,采用土体硬化模型(HS模型)建立三维模型,给出加固参数设计方法,研究护岸前沿土体加固的面积置换率、加固宽度和加固深度对格形地下连续墙变形的影响。因软土地基上结构受软土强度参数的影响较大,故对软土强度指标和水泥土强度指标进行敏感性分析。     

新型混凝土单元块D型软体排结构计算及稳定性分析

针对长江中下游航道整治水下沉排工程中软体排结构的不足,提出一种新型混凝土单元块D型软体排结构,建立悬链线模型,分析排体的受力特点,计算排体的抗倾、抗滑和抗漂浮稳定性,并对比分析排体对地形的适应性。结果表明,新型混凝土单元块D型软体排结构明显提高了水下沉排的安全性和对复杂地形的适应性,为复杂条件下的水下沉排工程提供理论支撑。     

避免输送黏土管线堵塞的设备和方法

绞吸船开挖输送黏性土时,如果不控制好吹填流速和浓度,就容易发生疏浚土堵管现象。为此,在总结传统防堵塞和疏通管道方法的基础上,采用试验对比等方法,设计一种特型防堵塞排泥钢管以及使用该种设备进行预防堵塞和疏通堵管的作业方法。     

振冲法加固砂土地基工艺选择及施工参数控制

根据砂土的黏粒含量,振冲法可采用不加填料的振冲密实法或有填料的振冲置换法,选择合适的振冲施工工艺和确定合理的工艺参数,与地基加固效果和地基处理的工程投资密切相关。在振冲器的振动荷载作用下,由于饱和砂土的液化产生振密作用,根据孔隙水压力的增长模型,推导了饱和砂土的临界液化时间,并分析留振时间的影响因素。结合两个工程实例,探讨了振冲密实法和振冲置换法两种工艺的适应性及加固效果。根据砂土的类型和黏粒含量,将砂土地基分为3类,不同的砂土地基采用合适的振冲工艺,并得出施工参数的合理区间。     

海洋软土修正剑桥模型在海堤工程的应用

通过对海洋软土进行一系列的室内物理力学试验及静三轴试验,拟合了海洋软土平均应力和广义剪应力值,认为海洋软土的状态线呈双曲线形,并将修正的应力罗德角考虑在模型之中,进一步改进剑桥模型理论,使其更加适应海洋软土的静力学特性。实践证明,海洋软土修正剑桥模型能有效模拟海洋软土的应力应变特性,表现为海洋软土材料的非线性特征以及塑性流动的特征。采用海洋软土修正剑桥模型对以海洋软土为基础的海堤的地基沉降进行数值分析,计算结果验证了海洋软土修正剑桥模型的适用性。