Influence of diaphragm wall installation on the numerical analysis of deep excavation

This paper presents a numerical analysis of the influence of initial stress state on the response of deep excavation supported by retaining wall. Indeed, the influence of diaphragm wall installation prior to excavation works may affect the soil response and lateral wall deflection induced by excavation process. The first part of this paper gives a short review of the numerical methods aimed to reproduce the retaining wall installation. Numerical analysis of a deep excavation in two‐dimensional and three‐dimensional conditions is then performed according to the methods previously presented. In three‐dimensional conditions, diaphragm wall installation is performed considering a sequence of panels, described by their number and length. Results of three‐dimensional calculations confirm that stress state is disturbed by wall installation, which has a sensitive effect on the ground response induced by soil excavation. It is also noted that these results are not easily reproduced in two‐dimensional conditions. Copyright © 2012 John Wiley & Sons, Ltd.     

广州岩溶地区深基坑开挖对周围环境影响的研究

以广州地铁9号线在岩溶地区施工深基坑为例,研究岩溶地层基坑施工对周围环境的影响。该车站基坑长259.7 m,宽18.7 m,深15.8 m。基坑深度范围内包括溶洞和砂层,溶洞地层富水、稳定性差、物理力学性质差,砂层厚0～15 m,有较大的渗透性,基坑施工过程中对地下连续墙的侧向位移和地面沉降进行了监测。监测结果表明,基坑开挖结束时地下连续墙的最大侧向位移为12 mm,地面沉降的最大值为10.1 mm,基坑开挖过程中对周围环境的影响很小。研究成果可为今后类似工程施工提供经验借鉴。     

深基坑双排桩支护结构上的变形和土压力研究

根据某大型深基坑工程的实测资料,对双排桩支护结构上的截面弯矩、变形和土压力分布特征进行了研究,并对基坑开挖的空间效应、冠梁刚度对土压力的影响、支护结构变形与土压力分布的关系、双排桩支护结构与土的相互作用机制等进行分析。研究表明,深基坑双排桩支护结构上的土压力分布是十分复杂的,用传统的土压力计算方法估算双排桩支护结构上的土压力存在较大偏差。其研究结果为双排桩支护结构上土压力设计计算模式的建立提供了依据。     

桩承式围堤对邻近桥梁桩基的影响分析

桩承式围堤是将上部围堤或堆载荷重通过桩筏基础传递到深层较硬的土层,以减少由于围堤或堆载对邻近桩基产生负摩阻力和侧向推力的一种围堤式构筑物。采用基于Mindlin应力解的桩伐基础简化分析方法、弹性和弹塑性三维数值模拟了嘉兴港海盐港区围堤对杭州湾跨海大桥产生的负摩阻力和侧向推力。通过上述3种方法的分析比较,结果表明,采用的简化分析方法与弹性和弹塑性三维数值模拟结果吻合较好,可作为桩承式围堤结构基础的分析和设计方法。     

基坑开挖对近邻运营地铁隧道影响规律研究

对某邻近基坑开挖的地铁隧道的水平位移和沉降的时空分布做了深入分析。由于软土的蠕变效应,应考虑基坑分块开挖的先后顺序造成的时空效应的影响,以及基坑围护体系的水平支撑结构对土体位移的限制作用。基坑开挖对邻近地铁隧道的影响范围为2.5倍开挖深度,而对于远基坑的右线,影响范围更低,甚至低至1.5倍开挖深度。将基坑和隧道的监测数据联系分析,得到比值与水平距离的关系曲线,将基坑监测数据代入拟合公式,对地铁水平和垂直位移进行估算。隧道水平位移与邻近的同深度土体水平位移的比值（?）,其最大累计位移点的? 较多地处在0.60～0.65范围,在底板浇筑都已完成后,稳定在0.60。隧道沉降与邻近地表沉降的比值（?）,其最大累计沉降点的?,较多地处在0.50～0.60间,底板浇筑完成后,稳定在0.52±0.05水平。     

深基坑双排桩支护结构设计计算方法研究

考虑了土压力的空间效应,分析并计算了冠梁对双排桩支护结构的变形协调作用;考虑了滑移面和排距对作用在前后排桩上的土压力的影响,在弹性地基梁法的基础上,提出了一种新的双排桩支护结构设计计算模型。将理论计算结果与工程实测资料进行了对比分析,结果表明应用该计算模型进行计算,能得到有效的计算结果。     

基坑开挖对近邻地铁车站和隧道的影响

对基坑开挖期间近邻地铁车站和隧道变形等进行分析,总结基坑开挖期间近邻地铁车站、隧道变形的发展规律。以量化的形式定义表征隧道不均匀变形程度的不均匀变形参数 ,并对地铁车站引发的隧道近站部分不均匀变形分布及其大小预测进行研究。研究表明,基坑开挖期间地铁车站表现为上浮而近站隧道表现为沉降;基坑开挖期间地铁车站和近站隧道之间的位移差显著,对隧道结构的损伤严重;基坑开挖对近站隧道的影响范围约为基坑开挖深度的4倍;地铁站引发的近站隧道不均匀变形主要分布在距地铁站1倍基坑挖深的范围内,得到的 分布预测公式可对隧道近站部分不均匀变形的大小和分布进行预测。所得结论及某工程参数A、B的取值可供类似工程参考。     

Numerical investigation on performance of braced excavation considering soil stress-induced anisotropy

Acta Geotechnica - In the complex soil stress state encountered in the braced excavation, different stress states lead to diversion of principal stress directions. The stress-induced anisotropy is...     

A case study on the behaviour of a deep excavation in sand

A complete case record of an excavation in sand is explored in this study. Numerical analyses were conducted to evaluate the influences of soil elasticity, creep and soil–wall interface. Back-analyses indicate small strain parameters should be used if an elastic–perfect plastic model is selected. In addition, excavation-induced seepage has only a limited effect on vertical displacements. Delayed installation of 3rd level struts and base slab construction caused significant time-dependent (creep) movements during the excavation. Back-analyses show that the dynamic viscosity (D_v) used in the visco-elastic model for creep simulation is in the range of 1.5 × 10¹⁵–2.0 × 10¹⁵ Pa, but there are still inconsistencies in movements both near to and far from the excavation. Interpreting from observation data, the creep rate of wall movement caused in the non-supported stage of the excavation varies between 0.14 and 0.38 mm/day. Finally, parametric studies of interface elements indicate that the most sensitive parameters are the normal (K_n) and shear stiffness (K_s) of the interface. Back-analyses using an elastic–perfect plastic model indicate that using 3 × 10⁶ Pa for K_n and K_s produces more acceptable results.     

考虑动态因素的深基坑开挖反演分析及预测

以弹性地基梁法为基础,运用动态施工反演分析的思想,即在常规的反分析过程中引入隧步开挖和隧道支撑的动态施工因素,反算反映基坑土体性态的m值,以求仿真模拟深基坑工程实际施工情况,进而为下一工况的变形预报提供可靠保证。最后通过一个工程实例的计算值与实测值对比分析,验证了该法在基坑支护结构设计和施工过程中是合理可行性的。     

深基坑工程中的咬合桩受力变形分析

对于深基坑工程问题的研究,围护结构大多简化为线弹性梁单元模型,该分析方法不能准确反映钢筋混凝土结构的实际受力情况。以杭州地铁一号线试验段秋涛路车站深基坑为工程背景,建立能够考虑钢筋与混凝土实际受力情况的非线性三维实体模型,对咬合桩这一特殊形式围护结构的受力机制进行了分析。通过与现场实测结果比较和分析,验证了计算方法的正确性,为今后类似工程的设计计算、开挖施工提供了理论依据。     

天津某深基坑工程施工监测及数值模拟分析

本文介绍了天津铜锣湾广场深基坑工程开挖实例.通过对开挖过程中的支护结构内力、坑周土体水平位移等的现场监测和数值模拟分析,讨论了基坑开挖过程中支护结构受力的特点及其对周围环境的影响,得到了基坑周边土体水平位移的变化规律,为考虑施工因素的支护结构设计提供了依据.     

Scour effects on the response of laterally loaded piles considering stress history of sand

Scour is the removal of soils around pile foundations of bridges or offshore platforms, resulting in reduced capacity of the foundations in either lateral or vertical direction. A common way to analyze the scour-affected pile foundations is to remove the scoured soil layers while keeping the properties of the remaining soil unchanged. However, this approach ignores the fact that the remaining soil experiences different stress histories before and after scour, which can be expected to change the properties of the remaining soil. As a result, the resistance of the remaining soil provided to the pile foundation may be different. The present study focused on the response of laterally loaded pile foundations in sand under scour considering the stress history of the remaining sand. Relative density and coefficient of lateral earth pressure of the sand were evaluated when it changed from a normally consolidated (NC) soil to an over-consolidated (OC) soil due to scour. The relative density was then used to estimate other properties of sand, e.g., unit weight, friction angle, and modulus of subgrade reaction of the sand based on their correlation. The lateral load–deflection (p–y) curve for a pile in sand was modified and input into the computer software, LPILE Plus V 5.0, to account for the effect of the stress history induced by scour. A field test was referenced as an example to compare the calculated results from the modified p–y curves with those from the initially developed p–y curves for the tested sand. The results showed that the change in the over-consolidation ratio (OCR) resulted in the most significant effect on the lateral soil resistance among all the effects due to the changes in the properties of the remaining sand. The sand changing from an NC to OC state increased the lateral soil resistance to the pile foundation. Ignoring the stress history would result in a conservative design of laterally loaded piles under scour.     

大直径深长桩泥岩侧摩阻力试验研究——以吉林省龙华松花江特大桥工程试桩为例

泥岩地基中泥岩的桩侧摩阻力设计参数比较缺乏。通过对吉林省龙华松花江特大桥工程试桩的自平衡静载试验分析,并结合室内桩和泥岩接触中型剪切摩擦试验,揭示了该地区泥岩地基中大直径深长灌注桩泥岩侧摩阻力作用机制及承载特征,得出了一些对泥岩地基中钻孔灌注桩的设计和深入研究具有指导意义的结论。结果表明：大直径深长桩桩端阻力分担的荷载只占总承载力的一小部分,属摩擦型桩。自平衡测试中,全风化泥岩侧摩阻力达到173 kPa,强风化泥岩侧摩阻力达到279 kPa,中等风化泥岩侧摩阻力达到336 kPa,实测值较规范参考值大很多。建议在桩基设计时通过室内桩和泥岩接触中型剪切摩擦试验,基于莫尔库伦理论预估泥岩侧摩阻力,为桩基承载力的确定提供参考。     

考虑土拱效应的抗滑桩桩间挡土板压力计算方法

为合理计算抗滑桩桩间挡土板的内力与变形,采用弹性力学理论分析了桩间土拱效应,计算确定出土拱的平面形态呈中间凸起而两侧略微凹陷的曲线特征,在此基础上,引入Drucker-Prager强度准则以考虑中间主应力影响分析三维土拱效应,通过桩间土体的屈服函数分析确定了沿竖向变化的水平土拱矢高,进而计算出因桩间局部塌落拱的产生而作用于挡土板上的土压力,并按空间土压力分布模式与矩形简支板模型计算挡土板。实例分析结果表明,本文方法和数值模拟得到的沿深度方向土拱矢高值较为接近;本文方法与规范方法计算得到的板体最大弯矩值相近,其误差不超过3%。     

北京地铁工程邻近桥桩施工风险评估及控制对策探讨

探讨了北京地铁工程邻近桥梁施工风险等级划分应考虑的因素和风险等级划分方法,建议以桥基与地铁工程开挖影响破裂面的位置关系和桥基与地铁工程的水平距离作为主要依据,确定桥梁邻近等级。在此基础上,综合考虑桥梁现状质量,确定邻近桥梁的施工风险等级,并对不同的风险等级给出了相应的邻近桥梁基础加固保护对策,从而形成了对邻近桥梁的控制与保护技术程序,最后通过一个工程实例介绍了对邻近桥桩的评估及处理。     

A case history of a deep basement in London Clay

The case history of the deep excavation for the National Gallery extension in London is presented in this paper. Comparisons with data from other sites show that it is typical for that of similar projects in Central London. Class 1 predictions of the retaining wall behaviour (prior to construction) using the Model London Clay constitutive relationship considerably over-estimated wall and ground movements. Retaining wall and ground movements are also considerably over-predicted by analyses using a simple linear elastic/perfectly plastic soil model, despite optimistic parameters being assumed for the soils. Predictions made using the constitutive model BRICK are closer to the measured deflected shape, but are also higher than measured values. Parametric studies of the effect of various parameters suggest that a “best estimate” of the wall movements are still well in excess of those measured. It is concluded that these differences are due to three-dimensional effects and deficiencies in the model. The “beam-spring” computer software for retaining walls FREW gives similar results to the analyses using the simple model. Analyses of the same problem carried out by a different operator using another finite element code, but with the same constitutive model, yielded somewhat different results and highlight the need for careful interpretation of finite element analyses.     

岩溶土洞演化及其数值模拟分析

土洞是覆盖型岩溶区一种隐伏的不良地质现象。土洞在水的作用下发育演化最终形成塌陷,可通过地下水位的变化来研究土洞发育和塌陷的形成。同时土洞的演化会造成覆盖土体不均匀位移和应力重分布,可通过覆盖土体位移和应力变化来进行研究土洞演化过程。采用FLAC3D三维有限差分程序,分析覆盖层垂向位移场表明:最大垂向位移出现在土洞顶部,使拱顶出现拉张破坏,并可根据洞顶土层位移的数值模拟结果,划分“等沉面”确定土洞扰动的土层深度。分析覆盖层剪切应力场表明:在土洞拱趾部位出现剪应力集中,会造成拱趾的剪切破坏,并可根据洞顶“剪应力低值区”,判断覆盖层中土拱效应的存在。分析覆盖层塑性区表明:较为坚硬的黏土层中,土洞以拱顶塌落和拉张破坏为主,最终可以形成坑壁较为陡直的桶状或坛状塌坑。土层较为松散时,以拱趾的剪切破坏为主,最终可以形成锥碟形塌陷坑。利用“剪应力低值区”,“等沉面”和“塑性区”可综合判断土洞的稳定性以及覆盖层所能形成的极限土洞大小。岩溶土洞演化规律及数值模拟研究对岩溶塌陷（土洞）早期监测和评价有着重要的理论及工程意义。      

某深基坑开挖对周围环境影响的监测

介绍了南京某超高层建筑深层坑开挖的周围环境监测结果，分析了该深基坑开挖所引起的环境问题，包括地下水水位下降；建筑物和土层变形和裂缝，得到了一些有益的结论。认为基坑地质条件较好且开挖满足支护系统安全稳定的条件时，仍可能对周围环境造成较大的影响。