黏土中超大直径钢管桩内侧摩阻力研究

随着当前海上风电装机容量逐渐增加,超大直径钢管桩基础得到了广泛应用。桩径的增加改变了桩-土相互作用模式,现行规范中钢管桩内侧摩阻力计算方法的适用性有待商榷。通过离心模型试验,采用双壁板桩和管桩模型揭示了黏土中有限范围土压力与不同桩径的内侧摩阻力发挥规律;采用有限元数值分析方法,开展了内侧摩阻力发挥规律的影响因素分析,建立了钢管桩内侧摩阻力计算方法,并与离心机试验结果进行了对比验证。结果表明：随着桩径增大,桩内壁土压力增大,内侧摩阻力也随之增大,并沿桩深呈指数型分布,其发挥范围为距桩端5倍桩径以内;提出的钢管桩内壁侧摩阻力计算方法与离心机试验结果吻合良好。     

刚性挡土墙主动土压力颗粒流模拟

将土体离散为具有滑动连接模型的刚性条块,用颗粒流PFC2D程序数值从细观力学角度模拟了墙体平移(T)、绕墙底转动(RB)和绕墙顶转动(RT)位移模式下不同位移大小时刚性挡土主动土压力分布。模拟结果表明：刚性挡墙主动土压力非线性分布、墙土间外摩擦角和土体剪切角或内摩擦角对土压力有很大影响;墙体绕顶部转动时,大约0.3倍墙高以上的主动土压力大于静止土压力产生土拱效应;模拟计算值与模型试验实测数据吻合比较好,具有一定的理论价值。     

沉井下沉阻力离心模型试验研究

如何正确计算沉井的下沉阻力一直是沉井结构设计的难点,为了更加深入地研究沉井下沉阻力及其分布规律,通过离心机模型试验分别对4组不同埋深工况下的沉井进行了下沉模拟,对沉井侧壁土压力、刃脚斜面土压力、刃脚踏面土压力、沉井内外土面沉降进行了分析。研究结果表明：侧壁土压力随入土深度的增加呈先增大后减小的趋势,可采用分段函数形式对其大小及分布形式进行简化计算;刃脚斜面土压力呈三次多项式分布形式;随着刃脚入土深度的增加,刃脚斜面与踏面土阻力均显著增大,而单位投影宽度刃脚斜面与踏面土阻力比基本保持不变;沉井下沉会导致井外土面沉降,井内紧靠沉井内壁的土面沉降,离沉井内壁有一定距离的土面隆起。上述试验与分析成果可为理论研究与工程设计提供参考。     

Physical modeling of buried PVC pipes overlying localized ground subsidence

The last half-century has witnessed a proliferation in the use of polyvinyl chloride (PVC) pipes in civil engineering applications. However, little physical data are available to date to assess conformance with performance limits of these pipes subjected to events involving localized ground subsidence. In this study, experimental results are generated and evaluated from a series of physical models involving a buried PVC pipe overlying a localized subsiding bedding zone. Ground subsidence was simulated using a precisely controlled trapdoor system positioned at mid-length of the pipe. A technique including the use of a custom-made displacement transducer was developed as part of this study to facilitate collection of continuous deflection profiles along the axis of the pipes. The progressive development of soil arching was also monitored using earth pressure sensors placed on the top, sides, and at several locations beneath the pipe, both within and beyond the zone of ground subsidence. Strains in the external wall of the pipe were also monitored. The results indicate that significant bending developed in the portion of the pipe traversing the subsidence zone, especially at the pipe crown. Beyond this point, radial deflections of the pipe cross section continued to be detected along the pipe length to distances of approximately four pipe diameters. Ground subsidence induced a severe redistribution of the earth pressures measured in the soil mass surrounding the pipe. A significant increase in vertical soil pressures beneath the pipe was captured within a distance of about one pipe diameter outside the subsidence zone. The overall response of the PVC pipe to localized ground subsidence was found to improve with increasing backfill density and decreasing soil confinement.

     

Seismic active earth pressure on walls with bilinear backface using pseudo-dynamic approach

This paper presents a study on the seismic active earth pressure behind a rigid cantilever retaining wall with bilinear backface using pseudo-dynamic approach. The wall has sudden change in inclination along its depth and a planar failure surface has been considered behind the retaining wall. The effects of a wide range of parameters like soil friction angle, wall inclination, wall friction angle, amplification of vibration, variation of shear modulus, and horizontal and vertical seismic accelerations on the active earth pressure have been explored in the present study. Unlike the Mononobe-Okabe method, which incorporates pseudo-static analysis, the present analysis predicts a nonlinear variation of active earth pressure along the wall. The results have been compared with the existing values in the literature.     

考虑分层填筑及地应力平衡的挡土墙数值仿真

针对重力式挡土墙墙后分层填土对墙身受力影响的问题,深入研究分析墙背土压力动态变化值及规律性,利用大型通用有限元分析软件ADINA,建立了平面应变单元及墙、土接触单元的有限元计算模型,并且综合考虑墙后回填土Mo-hr-Coulomb材料本构模型,初始地应力场平衡、墙后回填土分层碾压填筑,设置墙、土之间的接触受力进行有限元...     

Earth pressure distribution behind rigid non-yielding walls under the effect of repeated loading on backfill

One of the most important factors in optimized design of non-yielding retaining walls like basement walls and bridge abutments is to determine the exact variation of earth pressure acting on such walls. In this paper, the distribution of at rest earth pressure behind a laboratory model of a fixed and rigid retaining wall with a cohesionless dry backfill is measured under the effect of static and repeated loads. The same conditions of the experimental model are then simulated numerically with a two-dimensional finite-difference analysis computer code. For the purpose of model verification, the results of numerical model are compared to the results of the experimental model, which is similar in geometrical and geomechanical properties. Cyclic surcharges with different amplitudes and frequencies are applied in different distances from the wall, and the earth pressure distribution, the resultant force, and its point of application are investigated. The effect of soil and loading parameters on the at rest earth pressure is also evaluated, and a parametric study has been carried out. The results of model show a significant increase in the earth pressure due to cyclic loading compared to static loading, especially in the initial cycles of loading. It indicates that the effect of cycling nature of loading should be essentially taken into account in the design of retaining walls.     

超深基坑土压力监测成果分析

土压力是基坑支护结构上的主要水平荷载形式。实际工程中由于土压力的大小受各种因素的影响而与理论值相差悬殊,在基坑支护设计时土压力的取值直接与支护结构未来的安全稳定性相关。通过对润扬长江公路大桥北锚碇深基坑工程土压力监测资料进行分析,得出坑壁土压力随开挖进行具有不同的分布形式,这对同类工程可靠性设计以及研究土-结构相互作用机制均具有重要意义。     

Seismic Passive Earth Pressure on Walls with Bilinear Backface Using Pseudo-Dynamic Approach

By using pseudo-dynamic approach, a method has been proposed in this paper to compute the seismic passive earth pressure behind a rigid cantilever retaining wall with bilinear backface. The wall has sudden change in inclination along its depth and a planar failure surface has been considered behind the retaining wall. The effects of a wide range of parameters like soil friction angle, wall inclination, wall friction angle, amplification of vibration, variation of shear modulus and horizontal and vertical seismic accelerations on the passive earth pressure have been explored in the present study. For the sake of illustration, the computations have been exclusively carried out for constant wall friction through out the depth. Unlike the Mononobe-Okabe method, which incorporates pseudo-static analysis, the present analysis predicts a nonlinear variation of passive earth pressure along the wall.     

考虑土拱效应的管棚合理间距计算方法

管棚作为隧道安全穿越不良地质地段的超前支护结构,依靠土拱效应发挥其支护作用,管棚间距与成拱效应密切相关。通过引入合理拱轴线,并考虑侧向土压力的影响,结合管棚间土拱破坏条件给出了管棚合理间距的计算方法,通过凤咀江隧道工程实例和离散元对比分析,验证了计算方法的合理性。进一步分析了管棚间距随管棚所处位置的变化规律以及管棚直径、土体参数等对管棚间距的影响规律。结果表明：当侧向土压力系数较小时,拱腰至边墙处管棚间距可适当调大;当侧向土压力系数较大时,拱顶至拱腰处管棚间距应适当减小。管棚间距随管棚直径和土体黏聚力的增加而线性增加,且与土体内摩擦角数呈正相关关系,随内摩擦角增大,对管棚间距的影响也越来越大。     

钢管桩土钉墙复合支护体系在某基坑工程中的应用

通过基坑采用的钢管桩＋土钉墙复合支护体系施工应用,介绍其设计思路、计算过程、验算及最终效果,论述了该支护体系在类似施工条件下,具有较大的技术及经济优势。     

刚性挡土墙主动土压力计算方法的改进

采用库仑土压力理论的假设：挡土墙土压力是由墙后填土在极限平衡状态下出现的滑动楔体产生,在该滑动楔体上沿竖向取水平薄层作为微分单元体,通过作用在单元体上的水平力、竖向力,建立挡土墙上土压力分布的基本分析方程,结合整个滑楔体的力矩平衡条件,先确定土侧压力系数、再建立土压力分布和土压力合力及作用点高度的理论公式。算例计算值与实测值吻合很好,这表明该方法不仅可行,而且可靠。     

Seismic Passive Earth Pressure Behind Non Vertical Wall with Composite Failure Mechanism: Pseudo-Dynamic Approach

This note shows a study on the seismic passive earth pressure behind a non-vertical cantilever retaining wall using pseudo-dynamic approach. A composite failure surface comprising of an arc of the logarithmic spiral near the wall and a straight line in the planar shear zone near the ground, has been considered behind the retaining wall. The effects of soil friction angle, wall inclination, wall friction angle, amplification of vibration, horizontal and vertical earthquake acceleration on the passive earth pressure have been explored in this study. The results available in the literature for passive pressure, on the basis of pseudo-static analysis are found to predict the passive resistance on the conservative side and the assumption of a planar failure surface is found to overestimate the passive resistance for higher wall friction. An attempt has been made in the present study to overcome both the limitations simultaneously. The present results are compared with the existing values in the literature and found a reasonable match among the values.     

衡重式挡土墙土压力的非线性分析

通过对挡土墙土压力非线性分析方法的研究 ,推导出了衡重式挡土墙土压力计算的数解公式 ,并编制了相应的计算程序 ,一般的直线型墙背挡土墙和折线型墙背挡土墙土压力计算均可作为本文计算公式的特例。通过对一折线型墙背重力式挡土墙的土压力计算与实测结果的比较表明 ,由本文公式所得的解与实测结果很接近。     

山区挡土墙土压力的现场试验研究

结合某山区高速公路多个挡土墙墙背水平土压力的监测数据,对挡土墙墙背的水平土压力时空分布规律进行了详细地研究。研究结果表明：施工期间,不同深度的土压力随着上部填土高度增加而增长的速度不同,愈是接近墙顶,其增加越快;施工期间实测水平土压力介于静止土压力和被动土压力之间,在墙身的3/4以下与静止土压力接近,在墙身的1/2以上与垂直土压力接近。刚施工完的挡土墙土压力为非线性分布,近似成双直线,实际土压力合力介于静止土压合力和垂直土压合力之间,更接近静止土压合力,其大小约为库伦主动土压力的2.5倍,为库伦被动土压力的0.3倍。土压力合力作用点在0.38倍墙高处。土压力随着时间而变化,在测量期间土压力变化规律为先减少后增加,总的趋势是不断增加,且随时间的变化量较大。     

Seismic Passive Earth Pressure Behind Non-vertical Retaining Wall Using Pseudo-dynamic Analysis

This paper shows a detailed study on the seismic passive earth pressure behind a non-vertical cantilever retaining wall using pseudo-dynamic analysis. A planar failure surface has been considered behind the retaining wall. The effects of soil friction angle, wall inclination, wall friction angle, horizontal and vertical earthquake acceleration on the passive earth pressure have been explored. Unlike the Mononobe–Okabe method, which incorporates pseudo-static analysis, the present analysis predicts a nonlinear variation of passive earth pressure along the wall. The results have been thoroughly compared with the existing values in the literature.     

滑裂面形状对挡土墙主动土压力的影响

滑裂面的准确选取对挡土墙稳定性分析有重要影响。基于塑性极限分析理论,分别推导了直线和对数螺旋线滑移模式下挡土墙主动土压力的计算公式,通过算例对比分析研究了平面滑裂面和对数螺旋滑裂面主动土压力的特点。研究结果表明:直线滑裂面为对数螺旋滑裂面的一种特例,随着滑裂面曲率增大,主动土压力合力作用点逐渐上移,主动土压力合力略有增加,但对墙趾的弯矩显著增加,不利于挡土墙稳定性;挡土墙各参数对直线滑裂面主动土压力合力作用点有不同影响,随着填土内摩擦角、挡墙倾角、填土倾角的增大而上移,随着墙土间摩擦角、黏聚力与容重挡土墙高度的乘积之比的增大而下移,合力作用点位置大致在0.2~0.4倍墙高处,说明主动土压力的非线性分布。研究结果对准确选取滑裂面形状计算挡土墙主动土压力有实际工程应用价值。      

绕顶转动模式下三维被动土压力的数值研究

已有的刚性挡土墙上三维被动土压力的研究主要基于挡土墙平移模式(T位移模式)下开展的，而对挡土墙绕顶转动模式(RT位移模式)下三维被动土压力的研究尚不充分。因此，该文采用数值方法系统地研究了RT位移模式下三维被动土压力及三维空间滑裂面性状。针对无黏性土体，得到了挡土墙宽度与深度比值、土体摩擦角大小和墙土接触面摩擦角比值对三维被动土压力系数及墙后土体滑裂面的影响，并与T位移模式下的三维被动土压力系数和墙后土体的空间滑裂面形态进行了定量的比较。研究结果表明:RT位移模式下的三维被动土压力系数和空间滑裂面形态均受土体内摩擦角及墙土接触面摩擦角比值的影响，且两者之间存在相互联系。RT位移模式下的三维被动土压力系数和空间滑裂面形态与T位移模式下有显著的区别；RT位移模式下的三维被动土压力系数及空间滑裂面相比于T位移模式下较小。研究成果可为RT位移模式下三维被动土压力的进一步研究和相关工程设计提供参考。     

Axi-symmetric active earth pressure obtained by the slip line method with a general tangential stress coefficient

The axi-symmetric active earth pressure problem has been investigated by several researchers. Most have suggested that it is reasonable to adopt the Haar & von Karman hypothesis in the slip line method. In this study, a general tangential stress coefficient is used instead of the Haar & von Karman hypothesis in the slip line method, and its effect on the earth pressure is discussed. We find that the hypothesis is reasonable when the soil behind the wall fails completely. Using earth pressures when the soil behind the wall begins to fail is better in practice. The earth pressure is expressed with earth pressure coefficients and the coefficients are presented in figures for practical use.     

面板对路堤式加筋土挡墙力学特性的影响

加筋土挡墙作为一种新型的轻型支挡结构,广泛应用于公路、铁路、港口等工程中。随着加筋土挡墙技术的发展,面板的类型也越来越丰富。利用Plaxis有限元软件,对路堤式加筋土挡墙进行了二维有限元计算分析。针对墙背水平土压力、垂直土压力、挡墙侧向位移、筋材应变和挡墙稳定系数等计算结果的分析,探讨了3种类型面板（返包式面板、整体式面板和拼装式面板）对路堤式加筋土挡墙力学性能的影响。研究结果表明,垂直和水平土压力的数值计算结果均小于理论值;相比较与其他两种面板的加筋土挡墙,返包式面板加筋土挡墙筋材的应变最大;面板类型对于加筋土挡墙的整体稳定性几乎没有影响。研究成果为实际工程的应用提供了理论指导。