Performance-based seismic assessment of a large diameter extended pile shaft in a cohesionless soil

The seismic behavior of a large diameter extended pile shaft founded on a dense sandy site is investigated in this paper. First, a deterministic analysis is conducted including both nonlinear dynamic analysis （NDA） and pushover analysis to gain insights into the behavior of the pile and make sure an appropriate modeling technique is utilized. Then a probabilistic analysis is performed using the results of NDA for various demands. To this end a set of 40 pulse-like ground motions are picked and subsequently 40 nonlinear dynamic and pushover analyses are performed. The data obtained from NDA are used to generate probabilistic seismic demand model （PSDM） plots and consequently the median line and dispersion for each plot are computed. The NDA and pushover data are also plotted against each other to find out to what extent they are correlated. These operations are done for various engineering demand parameters （EDPs）. A sensitivity analysis is done to pick the most appropriate intensity measure （IM） which would cause a minimum dispersion in PSDM plots out of 7 different IMs. Peak ground acceleration （PGA） is found to be the most appropriate IM. Pushover coefficient equations as a function of PGA are proposed which can be applied to the pushover analysis data to yield a better outcome with respect to the NDA. At the end, the pacific earthquake engineering research （PEER） center methodology is utilized to generate the fragility curves using the properties obtained from PSDM plots and considering various states of damage ranging from minor to severe. The extended pile shaft shows more vulnerability with a higher probability with respect to minor damage compared to severe damage.

Study of LDBPs Shaft Skin Friction for Piles in Cohesiove Soils

The methodology of predicting pile shaft skin ultimate friction has been studied in a systematic way. In the light of that, the analysis of the pile shaft resistance for bored and cast in situ piles in cohesive soils was carried out thoroughly in the basis of field performance data of 10 fully instrumented large diameter bored piles (LDBPs) used as the bridge foundation. The undrained strength index μ in term of cohesive soils was brought forward in allusion to the cohesive soils in the consistence plastic state, and can effectively combine the friction angle and the cohesion of cohesive soils in undrained condition. And that the classical ' α method' was modified much in effect to predict the pile shaft skin friction of LDBPs in cohesive soils. Furthermore, the approach of standard penetration test (SPT) N value used to estimate the pile shaft skin ultimate friction was analyzed, and the calculating formulae were established for LDBPs in clay and silt clay respectively.

Field Test Study on Cantilever Circular Occluded Pile Supporting Structure

In order to explore the deformation of the pile body of the circular occluded pile retaining structure under earth pressure, this paper carries out on-site monitoring in combination with the actual project, and obtains the deformation characteristics and change rules of the occluded pile by measuring the strain and displacement of the pile body. The research conclusion can provide a certain reference value for the pile body design of bite pile in similar projects.

砂土中抗拔螺杆桩承载力及变形特性研究

通过基于数字图像相关技术的模型试验和离散元数值模拟方法(PFC),研究了叶片设置、砂土相对密实度、受荷工况等因素对螺杆桩抗拔承载力和变形特性的影响,利用试验结果校准离散元程序的细观参数,模拟结果用于分析螺杆桩的荷载分担特性、螺纹叶片间距对承载力的影响以及桩周土体滑动面特征。结果表明:抗拔工况下桩基荷载位移曲线呈现软化特征,0.05 D破坏准则适用于抗拔桩的极限承载力判定,叶片的设置使得桩承载力提高37%,螺纹段荷载分担比接近70%,直杆段荷载分担比是抗压工况的2倍;上拔承载力随叶片间距增加呈降低趋势,H/D=1.00是此工况下合理参数;砂土相对密实度的提高使得螺杆桩和直杆桩抗拔承载力分别增长19.4%、26%,而对抗拔桩周围土体位移模式影响有限,螺杆桩桩周土体最大影响范围约为4 D,而直杆桩约为2 D。

超深基坑吊脚桩局部稳定性分析

目前基坑设计中对于吊脚桩预留岩肩的宽度和支护桩的嵌固深度取值大多从对上部支护结构内力及变形的影响角度出发,往往忽略了支护结构底部附近的局部稳定性问题。依托珠江三角洲水资源配置工程超深竖井项目,提出了外倾结构面下或破碎岩体吊脚桩基坑可能存在的3种破坏模式,采用极限平衡法分别给出了不同破坏模式下稳定安全系数的计算方法。同时针对不同破坏模式下,影响稳定安全系数的参数如岩层的埋深、结构面的倾角和力学参数、岩肩宽度、岩肩深度等进行了分析,结果表明外倾结构面倾角、结构面或岩体的力学参数对稳定安全系数影响较大。研究成果可为类似工程提供参考。

明挖隧道下穿桥梁工程中既有桩注浆加固方法与应用

[目的]明挖法新建隧道下穿桥梁时,需重点保护坑内既有桥梁桩基体系。基于湖滨南路隧道下穿广清高速公路桥梁工程中基坑开挖导致既有桥梁桩暴露,影响桥梁整体刚度及造成桥墩沉降的问题,拟采用注浆加固方式进行坑底及桩周加固。需研究注浆加固范围(加固宽度及厚度)变化对桥梁变形的影响。[方法]通过有限元软件Midas GTS进行三维建模,对比不同注浆加固范围下桥梁墩顶位移及桩身轴力分布情况,分析桩周注浆加固宽度和注浆加固厚度变化对桥梁变形的影响及对桩承载力的提高效果。结合数值计算结果及变形控制需求,制定施工加固方案,并对隧道施工过程中墩台沉降现场进行监测。[结果及结论]桩周注浆加固可有效补偿摩擦桩侧摩阻力损失,提高加固区段荷载传递效率,从而更好地分担上部结构荷载;增加桩周加固厚度可有效改善墩顶沉降及邻墩差异沉降。隧道注浆加固施工现场监测结果表明,桥梁沉降变形及差异沉降均满足控制需求。

海上风电大直径超长钢管桩竖向承载特性现场试验研究

钢管桩是海上风电工程最主要的基础型式,但针对海上大直径超长钢管桩竖向承载力问题的研究却相对较少。结合广东汕头海上风电工程,进行了海上大直径超长钢管桩竖向承载力特性的现场试验研究,对比了桩底沉降和桩顶沉降随上部荷载的变化特点,分析了桩身侧摩阻力和桩端阻力随上部荷载的变化规律,并依据试验结果对大直径超长钢管桩极限承载力判定方法进行了探讨。试验结果表明:大直径超长钢管桩桩身变形较大,利用桩底沉降随荷载的变化曲线更容易对现场加载量进行控制和调整,也更容易对承载力的极限状态进行判断;大直径超长钢管桩端阻力随桩顶荷载的变化曲线呈“S”形;现行规范中采用Q/Qmax-s/d曲线斜率开始转变为0.2的点所对应的荷载作为极限承载力,将过高的估计大直径超长钢管桩的竖向抗压极限承载力。

竖向载荷下桥梁桩基承载特性研究

为分析竖向荷载作用下桥梁桩基础的承载特性,文中以某桥梁工程为例,通过静载试验分析了单桩及群桩的荷载-位移曲线、单桩桩身轴力以及桩侧摩阻力随桩深的变化规律。结果表明,随着桩身深度的增加,桩身侧摩阻力呈现先增加后降低的趋势,曲线存在反弯点,发生在桩深为30cm的位置;随着加载水平的增加,桩身侧摩阻力不断增加。桩的数量越多,桩基的沉降量越小,承载力越好。九桩的最大桩顶沉降量为20mm,卸载后的恢复沉降量为8.5mm;六桩的最大桩顶沉降量为25mm,卸载后的恢复沉降量为12.1mm;四桩的最大桩顶沉降量为28mm,卸载后的恢复沉降量为18.5mm。

桥梁桩基础变形监测研究

为提升桥梁桩基础施工质量,文中以某特大桥梁工程为例,对施工过程中桥梁桩基础沉降量、桩身轴力以及压缩变形变化规律进行分析。结果表明,梁施工与初始承台浇筑施工相比,桩基顶部桩身轴力增加了146倍,最大桩身轴力增加了21倍,桩底轴力增加了63倍。随着桩身深度的增加,桥梁桩底压缩层沉降量表现为先快速增加后趋于稳定的变化规律;梁施工时,与承台浇筑相比,桩底压缩层沉降量增加了1.3倍。随着桩身深度的增加,桥梁桩底压缩层沉降量表现为先快速增加后趋于稳定的变化规律,梁施工与承台浇筑相比,桩底压缩层沉降量增加了1.3倍。随着桥梁工程施工进程的不断推进,桩基础的桩身轴力,桩基础的桩身压缩量、总沉降量以及桩基底部压缩层沉降量不断增加。

拟合法在基桩静载试验数据分析中的应用研究

依托豫北地区省道304濮阳白堽黄河公路大桥及接线工程单桩竖向静载试验成果,在超长大直径基桩承载力检测中采用专利技术拉压锚法将传统压力传递转换为钢绞线的拉力传递荷载。由静载试验数据得到,29000 kN加载时沉降曲率增大,桩端阻力占比14%,表现出明显的摩擦桩性状,随桩顶荷载增加桩侧摩阻力发挥规律逐渐体现为上中下三部分。在桩身轴力及桩侧摩阻力计算中运用拟合法建立桩身本构关系方程式,拟合曲线近似线性,可利用度较高,以期为同行业者提供有益思考。

Discussion on pile axial load test methods and their applicability in cold regions

The measurement of pile axial load is of great significance to determining pile foundation design parameters such as skin friction and end bearing capacity and analyzing load transfer mechanisms.Affected by the temperature and ice content of frozen ground,the interface contact relationship between pile foundation and frozen soil is complicated,making pile axial load measurements more uncertain than that in non-frozen ground.Therefore,it is necessary to gain an in-depth understanding of the current pile axial load test methods.Four methods are systematically reviewed:vibrating wire sensors,strain gauges,sliding micrometers,and optical fiber strain sensors.At the same time,the applicability of the four test methods in frozen soil regions is discussed in detail.The first two methods are mature and commonly used.The sliding micrometer is only suitable for short-term measurement.While the Fiber Bragg grating(FBG)strain gauge meets the monitoring requirements,the Brillouin optical time-domain reflectometer(BOTDR)needs further verification.This paper aims to provide a technical reference for selecting and applying different methods in the pile axial load test for the stability study and bearing capacity assessment of pile foundations in cold regions.

硬岩地层超深基坑桩锚支护体系受力与变形特性实测分析

为探究硬岩地层超深基坑桩锚支护体系随基坑开挖的受力与变形演化规律,依托于崂山公卫中心基坑支护工程,对南侧支护完成区域基坑的预应力锚索轴力、基坑水平和竖向位移进行了实时监测,分析桩锚支护体系在该地质条件下的力学性能,探讨锚索轴力急速下降与基坑水平位移增大的影响因素。研究表明:预应力锚索轴力持续、急速的下降与基坑紧邻原状山体的土压力和北侧后挖区域的持续施工有关,工程中采取预应力锚索2次补偿张拉适用效果良好;基坑最大水平位移为19.98 mm,最大竖向位移为12.11 mm,南侧支护完成区域基坑支护体系的变形受后续施工区域的影响明显;桩锚支护体系在硬岩及土岩二元地层超深基坑中具有较好的适用性和可靠性。类似工程支护结构设计应重视周边地质环境、邻近区域持续施工等因素的影响。

砂卵石地层深基坑监控量测与数值模拟分析

以成都某轨道交通砂卵石层深基坑为研究对象,对基坑开挖过程中桩身水平位移、周边地表沉降和内撑轴力进行监控量测,并采用midas GTS三维有限元软件进行模拟分析。结果表明:地铁车站深基坑的变形具有明显的空间分布特征,坑角效应显著;基坑扩大端围护桩的水平位移和周边地表沉降均小于标准段;桩身水平位移、地表沉降及内撑轴力的模拟值与实测值相近,有限元分析可较好地预测开挖过程中基坑的应力与变形演化规律;桩顶水平位移的实测值远大于计算值,可能与土体本构模型、基坑周边荷载及施工工序与实际不符等有关。

不良地质条件下山体内弧形闸门竖井塌方处理措施

轿子山水库山体内弧形闸门竖井塌方,竖井下游侧倒悬体失稳,边坡垮塌冒顶。如何有效处理塌方,加固已失稳的倒悬体,防止二次开挖时竖井倒悬体再次坍塌,确保闸门竖井建成后安全运行是关键。在塌方处理中先对井内坍塌漏斗进行回填,后用混凝土梁+锚筋桩+固结灌浆联合从井口对下部岩体进行加固,再用锚喷支护+固结灌浆对井壁进行加固的措施,有效处理了塌方冒顶,联合支护对坍塌体起到良好的加固作用。

风险管控下固体废物堆场原位垂直阻隔技术设计分析

南塘水系干流源头西北侧为马钢股份原二渣线,场地存在大量历史遗留工业固废,长期作为矿渣、钢渣、废钢材等一般工业固体废物堆场。这些工业固废暴露在自然环境受降雨淋溶、地表径流等作用,导致工业固废中污染物的迁移扩散,对毗邻项目区域的南塘水体水环境质量以及区域范围内的土壤、地下水产生不利影响。本文简介综合比对选取三轴搅拌桩+局部高压旋喷桩对固废堆场进行垂直防渗阻隔,及时消除环境安全隐患,降低环境风险,为同类型环境风险管控项目提供交流与借鉴。

灌注桩防护法开挖回风立井风硐工艺应用

回风立井风硐一般采用大开挖的施工工艺,该工艺存在开挖面积大,对临时凿井井架扰动大,且开挖过程中存在无法平行开展井筒开凿导致施工工期较长等弊端。为减小风硐土方的开挖范围,基于边坡防护理论,将灌注桩支护工艺引用到赵石畔煤矿回风立井风硐施工中,并通过采用理论计算和数值模拟的方法确定出合理的灌注桩支护参数。赵石畔煤矿回风立井风硐的实践表明,在基坑开挖时采用灌注桩预支护边坡,能够有效解决风硐开挖时的边坡防护问题,大大提高了风硐施工效率。

数字化微扰动搅拌桩技术与现场试验研究

常规水泥土搅拌桩工艺存在桩身强度分布不均、施工扰动较大、桩体质量受人为因素影响大等问题,故研发数字化微扰动四轴搅拌桩技术,在成桩过程中,4个钻头可同时喷射浆液和气体,与多层可变角度切削叶片共同切削土体,辅以上下转换喷浆工艺,解决桩身强度分布不均的难题,有效减少水泥用量。借助异形钻杆和浆气压力自动控制功能,降低成桩施工过程中的扰动,成桩全过程由数字化控制系统自动完成。现场试验表明,四轴能以13%~15%的水泥掺量达到0.8MPa的强度要求,实现了对周边土体的微小扰动。

基于光纤技术和有限元计算的灌注桩承载特性

为了掌握灌注桩的承载力及桩身受力分布和传递规律,开展了灌注桩现场静载试验,并使用光纤传感器对灌注桩桩身变形进行了测试,获得了桩身应变信息。采用有限元软件ABAQUS,开展了灌注桩承载特性数值模拟研究。结果表明,静载试验得到的桩基荷载-位移(Q-S)曲线和数值模拟测得的桩基Q-S曲线基本一致;光纤传感器所得结果显示桩身轴力在桩头处是最大的,随着桩长增加而逐渐递减,整体变化规律与数值模拟结果规律一致;灌注桩实测桩身侧摩阻力沿桩长变化规律与数值模拟得到的受力分布和传递基本一致,验证了有限元计算模型中选取的参数是合理的。考虑了桩长、桩径和桩土界面摩擦因数对桩基Q-S曲线、桩身轴力分布和侧摩阻力分布的影响,桩径和桩土界面摩擦因数对桩基的Q-S曲线、桩身轴力分布和侧摩阻力分布的影响很大,而桩长的影响较小。

Discussion on“Empirical methods for determining shaft bearing capacity of semi-deep foundations socketed in rocks”[J Rock Mech Geotech Eng 6(2017)1140-151]

A new comprehensive set of data（n = 178） is compiled by adding a data set（n = 72） collected by Arioglu et al.（2007） to the data set（n = 106） presented in Rezazadeh and Eslami（2017）. Then, the compiled data set is evaluated regardless of the variation in lithology/strength. The proposed empirical equation in this study comprises a wider range of uniaxial compressive strength（UCS）（0.15 MPa 〈 σ_（rc） 〈156 MPa） and various rock types. Rock mass cuttability index（RMCI） is correlated with shaft resistance（r_s） to predict the shaft resistance of rock-socketed piles. The prediction capacity of the RMCI versus r_s equation is also found to be in a fair good agreement with the presented data in Rezazadeh and Eslami（2017）. Since the RMCI is a promising parameter in the prediction of shaft resistance, the researchers in the rock-socketed pile design area should consider this parameter in the further investigations.

膨胀土浸水前后单桩p-y曲线研究

为研究膨胀土地基中水平受荷桩浸水前后的承载性能,分别进行了浸水前后的水平受荷桩室内模型试验,探究了桩周土抗力(p)、桩的水平位移(y)和桩身弯矩的变化规律;分别建立了浸水前后水平受荷桩的p-y曲线计算公式,并通过模型试验验证了所提公式的正确性。研究表明:浸水前后的土抗力随着水平位移的增加而逐渐增大,最终趋于稳定;浸水前后桩身弯矩均是先增大后减小,最大值位置分别为埋深0.10 m(4D)和0.12 m(4.8D)附近,当水平荷载相同时,浸水后的桩身弯矩较浸水前的有所增大。