土坡稳定分析简化Bishop法的数值解

建立了适于边坡稳定分析简单的平面直角坐标系,得到了该坐标系下的边坡稳定分析瑞典圆弧法的积分表达式,与张天宝法进行了验证和对比;提出了基于边坡稳定分析简化Bishop法原理的积分法,推导了其安全系数Fs积分表达式,编制了数值积分计算和图形处理程序,并进行了工程应用,实践证明该方法的正确性。     

桩承式路堤土拱效应简化分析方法

为了加强对桩承式路堤中土拱效应的理解,采用有限元方法对不同桩间距、填土高度和内摩擦角的情况进行了参数敏感性分析。计算结果表明,对于填土高度与桩净间距之比H/(s-a)≤1的低路堤,填土中的破坏面为通过桩边缘的竖直面;而对于H/(s-a)≥1.5的高路堤的情况,最终填土中将发展成类似经典地基承载力理论中的由弹性楔体、径向剪切区和被动破坏区组成的区域。基于有限元得到的破坏模式,建立了土拱效应的二维简化分析方法,并与有限元和文献收集得到的试验数据进行了比较。结果表明,由于采用了合适的破坏面假设,简化方法的计算结果可靠合理。     

XCC pile installation effect in soft soil ground: A simplified analytical model

This paper presents a simplified analytical model: the X-shaped cylindrical cavity expansion method (XCEM), which can be used to interpret and predict the displacement, stress, and excess pore pressure caused by the X-section cast in place concrete (XCC) pile installation in soft soil. Analytical solutions for the displacement and strain field are obtained with a streamlined solution, base on the strain path method (SPM). The stress and excess pore pressure can then be subsequently determined with the assumption of the elastic-perfectly plastic soil behavior. A positive agreement was found when the theoretical prediction of the displacement, stress, and excess pores pressure was compared against the field measurements. The proposed XCEM improves the conventional cavity expansion method (CEM) and offers a framework for understanding the non-circular cross-section penetrator problem, which is different from the conventional circular penetrator problem.     

能量桩群桩工作特性简化分析方法研究

采用双曲线模型模拟桩土界面上的力学行为,利用剪切位移法反映剪应力在土层中的传递,考虑群桩之间的相互作用,建立了热-力耦合作用下能量桩群桩基础工作特性的简化分析方法。该方法能反映桩土界面上的非线性、桩顶的约束条件和能量桩位置的影响,可直接计算所有桩的位移和轴力。与现有方法相比,计算得到的双桩相互作用因子更加合理。通过与文献中试验数据的对比表明,若只有局部桩经历温度变化,能量桩运行过程中各桩之间存在差异变形,基础出现倾斜,桩顶荷载发生重分布。所建立方法计算方便,能合理模拟能量桩群桩基础的主要工作特性,可用于大规模能量桩群桩基础的设计计算。     

卸荷式板桩高桩梁板码头结构土压力简化计算

河网地区的淤泥层一般较厚,强度较低,在这些地区新建或扩建码头时需对边坡进行大面积的开挖、换填,工程造价高,采用卸荷式板桩墙高桩梁板码头结构可以很好地解决,但目前关于这种码头结构型式的土压力计算研究非常少。借鉴遮帘板桩码头的土压力计算方法,分析探讨了该新型结构的土压力计算方法。计算中对结构进行分区处理,利用非极限状态土压力理论计算板桩河侧及灌注桩陆侧的土压力,同时考虑土拱效应和卸荷板的卸荷作用,以及平行墙理论,推导计算板桩陆侧及灌注桩河侧的土压力,最后将简化计算结果与离心模型试验结果及有限元数值分析结果进行对比,对比分析表明,该简化计算方法有一定的可行性,可供工程设计参考。     

基坑预留土台的简化分析方法研究

利用有限元软件对基坑预留土台对围护结构的内力及变形的影响规律进行研究,并对预留土台作用下围护桩的内力及变形的简化计算方法进行探讨。分析结果表明,预留土台的存在对减小围护桩的内力及变形具有显著的作用,且随着预留土台宽度、高度的增大,围护桩的内力及变形呈明显的减小趋势,但当预留土台宽度增大至约1倍开挖深度时,围护桩的变形逐渐趋于稳定。当计算预留土台作用下的围护桩变形及内力时,先利用弹性地基梁法计算该开挖深度下的围护桩的变形及内力,然后乘以预留土台的面积折减系数,即可得到预留土台作用下的围护桩变形及内力。经实际工程验证,采用该简化计算方法可较为简便地计算预留土台作用下围护桩的内力及变形。     

能量桩单桩工作特性简化分析方法

基于荷载传递法,建立了热力耦合作用下能量桩单桩工作特性的简化分析方法。该方法中将桩-土荷载传递函数取为双曲线,采用曼辛法则模拟温度循环过程中桩-土界面的卸载和再加载特性,通过再加载过程中刚度的折减近似考虑塑性变形的积累。利用矩阵位移法求解控制方程组后可直接得到任意温度-力学组合作用下的桩体变形、桩身轴力、桩侧阻力和桩端阻力,无需事先假设温度位移零点的位置。通过与试验数据的对比分析,验证了所提方法的可靠性。结合算例,研究了能量桩的长期工作特性。结果表明,温度循环会造成自由桩的桩顶沉降增加,固定桩的桩顶应力减小,温度循环的影响与桩顶静力荷载水平和土体刚度的衰减程度密切相关。     

A simplified approach for rockfall ground penetration and impact stress calculations

This paper presents a simple procedure for calculating rockfall penetration and ground impact stress for design of pipeline burial depth. Rockfall may damage pipelines by penetrating through cover soils and damaging the pipeline by puncture or excessive impact stress. Design engineers may face a challenging question regarding what burial depth is required for adequate pipe protection. Greater burial depth may provide better protection; however, there are usually site and economic constraints. This paper discusses a simple procedure for calculating the maximum rock penetration and ground impact stress due to rockfall. The procedure may be used to estimate the minimum burial depth required to protect pipelines from rockfall damage. A case study involving a large boulder that fell down a slope and landed on a buried high-pressure gas pipeline is presented to demonstrate and verify the procedure. A calculation was performed before the removal of the boulder to evaluate whether any damage was made to the pipeline. The calculated results agreed well with the actual conditions observed after the boulder was removed.     

土体侧限压缩模量简易计算方法及其应用

地基土的模型已不下数百个,但真正能反映土体真面目的几乎没有,其原因是土体本身太复杂。要想全面地考虑土体本构关系,其模型参数将会多得难以在实践中应用。因此,从实用角度出发,应建立简单的（包括形式和参数的可得到性）、能够反映研究问题主要矛盾的模型。结合建筑工程关心的沉降问题,根据e-p曲线和e-lgp曲线的关系,建立了与土体竖向应力有关的土体侧限压缩模量的计算方法,并假定泊松比根据不同的土类,确定为不同的常量,从而,可以较为简单地计算土体的沉降及其应力,工程实例计算结果表明：该方法具有合理性。     

A simplified design method for energy piles

This paper introduces a simplified method to investigate the influence of thermal loads on the shaft friction and tip resistance of energy piles. The method is based on the influence factors (λ and η) which are back-calculated drawing on a large number of field and model tests. Values for λ and η during heating and cooling are suggested. Moreover, a new equation is proposed to calculate total shaft friction. The equations concerning the relationship between η and temperature difference are recommended to investigate the impacts of the thermal load on the pile tip resistance. The slope of the linear equation of an end-bearing pile is 2.14 times that of a floating pile indicating that the pile tip resistance of an end-bearing pile is much more affected by the same thermal load.

     

基坑开挖反压土作用机制及其简化分析方法研究

分析了反压土与支护结构相互作用的机制。在此基础上,基于弹性抗力法,结合天津市一些工程经验,建立了考虑反压土影响时支护结构内力和变形的计算方法,并结合工程实例进行比较分析。分析结果表明,反压土高度不变时,随着反压土的坡度减小或反压土宽度的增大,支护结构的最大位移和最大弯矩都逐渐减小;当反压土的坡度减小到一定值或顶宽增大到一定的程度时,支护结构的最大位移和最大弯矩不再减小而趋于一个定值。反压土土质条件对反压土的作用的发挥有着显著作用。开挖前进行良好的降水,开挖过程中注意不要扰动反压土,并对反压土做好良好的护坡,防止雨水侵入土坡,这些措施均有助于保证反压土作用的充分发挥。必要时,可考虑对反压土进行注浆加固。工程实测表明本文建议方法的计算结果与工程实测结果较吻合,并表明在开挖面积较大的基坑工程中,条件适当时,采用基坑内侧预留反压土的方法可不需设置水平支撑,可节约大量基坑支护投资,并缩短工期,具有良好的经济效果。     

A new simplified Hypothesis B method for calculating consolidation settlements of double soil layers exhibiting creep

This paper presents a new simplified method, based on Hypothesis B, for calculating the consolidation settlements of double soil layers exhibiting creep. In the new simplified Hypothesis B method, different stress–strain states including over‐consolidation and normal consolidation states can be considered with the help of the ‘equivalent time’ concept. Zhu and Yin method and US Navy method are adopted to calculate the average degree of consolidation for a double soil layer profile. This new simplified Hypothesis B method is then used to calculate the consolidation settlements of double soil layers, which have two different total thicknesses of soil layer (4 m and 8 m) and three different OCR values (Over‐Consolidation Ratio, OCR = 1, 1.5 and 2). The accuracy and verification of this new simplified method are examined by comparing the calculated results with simulation results from a fully coupled finite element (FE) program using a soft soil creep model. Four cases of double layer soil profiles are analyzed. Hypothesis A method with US Navy method for the average degree of consolidation has also been used to for calculating consolidation settlements of the same cases. For Case I(4m) and Case III(8m), it is found that curves of the new simplified Hypothesis B method using both Zhu and Yin method and US Navy method are very close to the results from FE simulations with the relative errors within 8.5%. For Case II(4m) and Case IV(8m), it is found that curves of the new simplified Hypothesis B method using Zhu and Yin method agree better with results from FE simulations with the relative errors within 11.7% than curves of the new simplified Hypothesis B method adopting US Navy method with the relative error up to 36.1%. Curves of Hypothesis A method adopting US Navy method have the relative error up to 55.0% among all four cases. In overall, the new simplified Hypothesis B method is suitable for calculation of consolidation settlements of double soil layers exhibiting creep, in which, Zhu and Yin method is recommended to obtain the average degree of consolidation. Copyright © 2016 John Wiley & Sons, Ltd.     

基于收缩试验的膨胀土地基变形预测方法

进行膨胀土的三相收缩试验,确定了广西膨胀土的体积收缩指数。对依托工程膨胀土进行了现场静力触探试验,根据比贯入阻力随深度的变化曲线特征,确定了膨胀土活动区深度,给出了膨胀土裂隙开展深度的理论解,膨胀土裂隙开展深度的计算值与静力触探试验确定的膨胀土活动区深度和现场观测的裂隙开展深度基本一致。最后介绍了基于三相收缩试验基础上的膨胀土地基变形计算方法,并在试验基础上给出了膨胀土地基变形计算模式和计算结果。以膨胀土地基变形量作为膨胀土地基的分类指标,对膨胀土地基进行了分类,对膨胀土基础选型具有重要意义。     

A simplified analysis method for piled raft and pile group foundations with batter piles

A simplified method of numerical analysis has been developed to estimate the deformation and load distribution of piled raft foundations subjected to vertical, lateral, and moment loads, using a hybrid model in which the flexible raft is modelled as thin plates and the piles as elastic beams and the soil is treated as springs. Both the vertical and lateral resistances of the piles as well as the raft base are incorporated into the model. Pile–soil–pile, pile–soil–raft and raft–soil–raft interactions are taken into account based on Mindlin's solutions for both vertical and lateral forces. The validity of the proposed method is verified through comparisons with several existing methods for single piles, pile groups and piled rafts. Workable design charts are given for the estimation of the lateral displacement and the load distribution of piled rafts from the stiffnesses of the raft alone and the pile group alone. Additionally, parametric studies were carried out concerning batter pile foundations. It was found that the use of batter piles can efficiently improve the deformation characteristics of pile foundations subjected to lateral loads. Copyright © 2002 John Wiley & Sons, Ltd.     

大型地下厂房块体稳定性简便分析方法

块体是结构控制型岩体中常见的潜在危险源之一。利用极限平衡法及强度折减法两种方法计算了某在建特大型水电站地下厂房开挖揭露的部分块体的安全系数,并根据计算结果提出一种利用块体几何及力学参数判断其稳定性的简便图解方法,经现场监测数据验证计算结果可靠性可满足工程要求。研究表明,对同一块体而言,极限平衡法和强度折减法得到的安全系数以及对其稳定性的总体判别结果并不一致。强度折减法受软件算法及网格尺寸影响,结果偏于保守。简单块体的安全系数计算应以极限平衡法为主,而复杂形态块体的安全系数用强度折减法计算较为方便。利用垂向地应力、块体体积、最大角点深度及结构面等效强度等4个指标并结合块体稳定性判别分区图,可满足快速判断块体稳定性的需要。对于判别为不稳定的块体,应及时支护并考虑加强支护。研究成果可用于类似工程块体稳定性的快速分析。     

A simplified analysis method for piled raft foundations in non‐homogeneous soils

A simplified method of numerical analysis based on elasticity theory has been developed for the analysis of axially and laterally loaded piled raft foundations embedded in non‐homogeneous soils and incorporated into a computer program “PRAB”. In this method, a hybrid model is employed in which the flexible raft is modelled as thin plates and the piles as elastic beams and the soil is treated as springs. The interactions between structural members, pile–soil–pile, pile–soil–raft and raft–soil–raft interactions, are approximated based on Mindlin's solutions for both vertical and lateral forces with consideration of non‐homogeneous soils. The validity of the proposed method is verified through comparisons with some published solutions for single piles, pile groups and capped pile groups in non‐homogeneous soils. Thereafter, the solutions from this approach for the analysis of axially and laterally loaded 4‐pile pile groups and 4‐pile piled rafts embedded in finite homogeneous and non‐homogeneous soil layers are compared with those from three‐dimensional finite element analysis. Good agreement between the present approach and the more rigorous finite element approach is demonstrated. Copyright © 2002 John Wiley & Sons, Ltd.     

粘性土微观结构简易定量分析法

作者根据计算机图像处理的基本原则，探索出一套粘性土微观结构简易定量分析法，经检验，这种方法简易，有效，对推广岩土结构定量化具有重要意义。     

土-地下结构体系地震反应的简化分析方法

基于Penzien提出的土-结构动力相互作用分析的集中质量模型,考虑等价土体的层间剪切刚度与阻尼效应,提出了土-地下结构动力相互作用体系地震反应分析的简化分析方法,选取具有不同地震动特性的Taft波、汶川地震什邡八角波和松潘波作为基岩水平向输入地震动,采用该简化方法和二维有限元法对土-地铁地下车站结构体系的地震加速度反应特性进行了对比分析,结果表明：简化方法计算的地铁地下车站结构峰值加速度反应大于二维有限元法计算的地铁地下车站结构峰值加速度反应,两者的差异与输入地震动特性有关,但其随地铁地下车站结构高度变化的总体趋势较为一致;随着输入地震动强度的增大,其差异程度也有所加大。该简化方法可合理反映土-地下结构体系的动力相互作用效应,可作为地下结构抗震设计分析的一种辅助方法。     

Three-dimensional RITSS large displacement finite element method for penetration of foundations into soil

The Remeshing and Interpolation Technique with Small Strain (RITSS) approach has been developed to deal with 3-D geotechnical problems in this paper. Unstructured 20-node hexahedral element is found to work well for predicting collapse loads accurately for 3-D undrained geotechnical problems involving material incompressibility. Remeshing is automatically accomplished by ANSYS program. With remeshing and interpolation, small fluctuations appear in the load–deformation results. In order to minimize these fluctuations, different increment sizes and remeshing frequencies are explored. Meanwhile, various 3-D interpolation methods are compared, and the unique element division method is found to work best. The results of two numerical applications are presented for a 3-D strip footing penetrating deeply into uniform clay and a square foundation into normally consolidated clay. The computed bearing capacity responses are compared with other numerical or conventional results. The results show that the present method is accurate and efficient for 3-D large displacement foundation penetration problems.