Pile-soil stress ratio in bidirectionally reinforced composite ground by considering soil arching effect

To discuss the soil arching effect on the load transferring model and sharing ratios by the piles and inter-pile subsoil in the bidirectionally reinforced composite ground, the forming mechanism, mechanical behavior and its effect factors were discussed in detail. Then, the unified strength theory was introduced to set up the elastoplastic equilibrium differential equation of the subsoil under the limit equilibrium state. And from the equation, the solutions were derived with the corresponding formulas presented to calculate the earth pressure over and beneath the horizontal reinforced cushion or pillow, the stress of inter-pile subsoil and the pile-soil stress ratio. Based on the obtained solutions and measured data from an engineering project, the influence rules by the soil property parameters (i.e., the cohesion c and internal friction angle φ) and pile spacing on the pile-soil stress ratio n were discussed respectively. The results show that to improve the load sharing ratio by the piles, the more effective means for filling materials with a larger value of φ is to increase the ratio of pile cap size to spacing, while to reduce the pile spacing properly and increase the value of cohesion c is advisable for those filling materials with a smaller value of φ.

Stress Ratio-Strain Relation of Pile and Soil in Composite Foundation

A series of triaxial compression tests were arried out by means of composite-reinforced soil samples to simulate the interaction between soil and pile. The samples are made of gravel or lime-soil with different length at the center. The experiment indicates that the strength of the composite samples can not be obtained by superimposure of reinforcing pile and soil simply according to their replacement proportion. It also indicates the law for stress ratio of reinforcing column to soil. The stress ratio of reinforcing column to soil increases and reaches peak rapidly while load and strain is small. Then the ratio decreases. This law is in accordance with the measuring resuits in construction site.

Water Deficit Stress Effects on Corn (<i>Zea mays</i>, L.) Root:Shoot Ratio

A study was conducted at Akron, CO, USA, on a Weld silt loam in 2004 to quantify the effects of water deficit stress on corn (Zea mays, L.) root and shoot biomass. Corn plants were grown under a range of soil bulk density and water conditions caused by previous tillage, crop rotation, and irrigation management. Water deficit stress (Dstress) was quantified by the number of days when the water content in the surface 0.3 m deviated from the water content range determined by the Least Limiting Water Range (LLWR). Root and shoot samples were collected at the V6, V12, and R1 growth stages. There was no significant correlation between Dstress and shoot or root biomass at the V6 growth stage. At the V12 and R1 growth stages, there were negative, linear correlations among Dstress and both root biomass and shoot biomass. The proportional decrease of shoot biomass was greater than the proportional decrease in root biomass, leading to an increase in the root:shoot ratio as water deficit stress increased at all growth stages. Determining restrictive soil conditions using the LLWR may be useful for evaluating improvement or degradation of the soil physical environment caused by soil management.

桩网复合地基离心模型试验中桩顶轴力测试方法研究

桩网复合地基是常见的软土加固措施。在开展桩网复合地基离心模型试验时,为了分析桩土应力比,需要测量桩顶轴力和桩间土压力。微型土压力计在离心模型试验中已经得到广泛应用,但尚无成熟的微型桩顶轴力测试传感器。利用模型桩的桩帽,开发了一种离心模型试验专用桩顶轴力测试方法,标定结果显示该方法测试线性度好。通过某桩网复合地基离心模型试验和数值分析的桩土应力比结果对比分析,验证了该方法的测试效果。

基于现场试验的CFG桩复合地基桩帽与垫层效应分析

【目的】柔性垫层和桩帽对CFG桩复合地基的桩土应力比、荷载分担比和沉降均有较大影响,但目前柔性垫层与桩帽在现场试验中如何共同影响复合地基特性仍有待进一步的研究。【方法】以CFG桩复合地基软基处理的某路段作为工程背景,在土工格栅层数不变的情况下,对垫层厚度为100 mm、200 mm、300 mm,桩帽尺寸为0.8 m、1.0 m、1.2 m组合下的形式进行了现场原位试验,研究了CFG桩复合地基的桩土应力比、荷载分担比和沉降特性。【结果】现场试验表明:随着垫层厚度由100 mm增大到300 mm,桩土荷载比减小了51.5%,桩土应力比减小了52.5%,总沉降量增大了7.9%;随着桩帽直径由0.8 m增大到1.2 m,桩土荷载比增大了29.0%,桩土应力比减小了29.2%,总沉降量10.4%.本文区域地质条件,宜选用垫层厚度100 mm、桩帽直径为1.2 m的CFG桩复合地基形式。

桩网结构路基动静承载性状分析

为研究桩网结构路基在静动荷载作用下的承载性状,采用有限元分析方法对桩网结构路基在静动两种荷载下的承载特性、荷载传递机理、土拱形成及发展规律进行了数值计算。通过分析静动两种工况下桩土应力、桩周土压力分布、桩土应力比及土拱效应,并与试验结果进行了对比分析。结果表明:静载作用下基桩轴向应力约为400 kPa,最大土压力出现在路基中部,且沿路基横向向外逐渐减小;动载作用下沿路基横向布置的桩体的动应力在埋深方向呈先增大后减小趋势,其竖向应力最大值约为静载下的160%;动载下路基内部土拱效应较静载有大幅削弱,其中削弱最大的为四桩中心处的空间土拱效应,其桩土应力比约为静载的29.3%。

考虑桩土变形协调的复合地基设计方法

目前在复合地基的设计中,由于采用桩体压缩模量计算得到的复合压缩模量偏大,造成复合地基加固区沉降被低估;另外桩和桩间土承载力发挥系数取值主观性较强,导致复合地基承载力计算结果偏大。针对上述两个问题,从复合地基形成机理出发,指出桩及桩间土共同直接承担荷载时必须保证桩土变形协调。桩土变形协调的条件是:(1)桩刺入垫层的深度不能超过垫层厚度;(2)桩宜设置为摩擦桩。在此前提下,分别计算桩及桩间土的沉降,利用桩土变形协调方法得到了桩土应力比和承载力发挥系数理论值,进而得到加固区的沉降计算方法。工程算例证实,从保证复合地基有效设计和工程安全的角度出发,应该根据桩土变形协调来进行复合地基设计计算。

水泥土搅拌桩处理风积沙地层复合地基静载荷试验数值分析

以榆林地区水泥土搅拌桩处理风积沙地层复合地基工程为背景,基于ABAQUS有限元分析软件,对水泥土搅拌桩处理风积沙地层的复合地基静载荷试验进行数值模拟,并分析风积沙复合地基桩土荷载传递机制及变形特性。结果表明:合理设置褥垫层厚度能有效减小桩顶应力集中,降低桩土应力比。提高褥垫层模量可减小复合地基的沉降,改善其承载性能。设置褥垫层的桩侧摩阻力在桩顶附近出现负摩阻力,随着深度向下快速增加至零,并转为正摩阻力。桩身的附加轴应力在桩顶附近先增加到峰值,然后逐渐衰减。水泥土搅拌桩处理风积沙地基时存在临界桩长。在相同荷载水平下,随着桩长的增加,桩土应力比先增大后趋于稳定,桩侧摩阻力分布随着桩长的增加趋于稳定。按规范设计的风积沙复合地基承载力特征值偏于安全,有较大的富余度。

盐渍土地区CFG桩水泥土褥垫层性能的研究

利用MIDAS-GTS NX数值模拟软件,针对褥垫层厚度和弹性模量变化对桩的沉降和桩土应力比的影响等问题,通过数值模拟对CFG桩桩顶沉降、桩顶应力、桩土应力比等进行研究,并得出以下结论:随着弹性模量的增大,桩土应力比增加趋于平缓,桩顶沉降增加;随着水泥土褥垫层厚度的增大,桩顶应力变化趋势也随之增大,且趋势基本相似;褥垫层厚度小于600 mm,弹性模量小于100 MPa时,地基沉降与二者参数变化有着较大关联;盐渍地区600 mm的水泥土褥垫层理论上可以有400 mm碎石褥垫层的工作性能。

多频段循环荷载下海洋黏土动力特性试验研究

为探究海洋土的动力特性及动力影响因素,采取原状黄海海洋黏土,利用GCTS动三轴试验系统开展室内试验研究,探讨偏应力水平、动应力幅值和动荷载频率对海洋土动应力应变关系和动孔压的影响规律,分析动剪切模量和阻尼比的变化特征。试验结果表明:海洋黏土的动应变随偏应力水平提高和动应力幅值增大而增大,且具有显著的频率效应,低频段动荷载(0.02~0.1 Hz)引起的动应变累积量高于高频段动荷载(1~10 Hz)的应变累积量;在低频段动荷载作用下,土样内超静动孔压显著上升,而在高频段下,动孔压的累积变化量很小;土样的动剪切模量对动荷载的频率反应不十分明显,仅在低频段,动剪切模量会随动荷载频率的提高略有下降,但是会随动应力幅值增加而显著提高,随偏应力水平提高而显著下降;土样的阻尼比对动荷载频率也很敏感,在低频段,阻尼比随频率的增大而降低,在0.1 Hz时的阻尼比最低;在高频段,土样的阻尼比随动荷载频率增加明显提高,提高幅度可达到1倍以上;阻尼比会随动应力幅值增长而略有减小,随偏应力水平提高而略有增加。

孔内深层强夯复合地基桩土应力比试验研究

通过开展孔内深层强夯单桩复合地基现场静载试验和桩土应力测试,获取了不同荷载作用下孔内深层强夯复合地基的平均桩顶应力、桩间土应力、桩土应力比、荷载分担比及其变化规律。试验结果表明:孔内深层强夯复合地基的桩间土承担了主要的上部荷载,约占50%~63%,随着荷载增大,桩间土承担的荷载比例逐步增大;对于孔内深层强夯复合地基,随着荷载的增大,桩土应力比随荷载的增大而减小,数值介于2~5之间;对粘性素填土地基,孔内深层强夯复合地基在处理后的桩间土地基承载力比处理前可提高220%。

循环荷载下粉煤灰群桩复合地基承载性能试验研究

在不同的循环荷载比和循环次数下进行循环荷载室内模型试验,从桩顶累积沉降、桩身应力、桩间粉煤灰应力和桩土应力比等方面分析循环次数和循环荷载比等因素对粉煤灰复合地基承载特性的影响。在循环荷载作用下,桩顶累积沉降与循环荷载比呈非线性相关关系,桩顶累积沉降曲线主要分为稳定型和发展型等2种变化形态;随着循环次数的增加,桩身应力和桩间粉煤灰应力均呈现先增大后稳定的趋势;当循环次数超过临界次数时,桩土应力比的减小速率将出现收敛;循环荷载比的增大会导致土拱效应发挥不稳定。

土体空洞对砖石排水拱涵受力影响研究

随着越来越多的排水拱涵投入使用,城市排水拱涵的病害也逐渐引起人们的关注,该文选取对砖石排水拱涵受力有较大影响的土体空洞作为研究对象。依托长沙市红旗渠试验段项目,通过对拱涵侧墙及拱圈后土体空洞的位置、大小情况的数值模拟,得到空洞对拱涵结构受力的影响规律。通过分析得到如下结论:空洞的最不利位置为拱趾单侧和双侧空洞,拱腰单侧和双侧空洞次之、侧墙底部单侧和双侧空洞几乎没有影响、拱顶空洞则会使拱涵应力减小。对拱趾单侧及双侧空洞大小进行分析可知:空洞平面内尺寸分为高度和宽度,宽度比高度对拱涵结构影响更大,宽度尺寸小于1.0 h时,拱涵结构应力变化较小,超过这个尺寸,拱涵结构最大拉应力从拱顶转移到拱趾空洞处,在拱趾处极易造成破坏,应当引起重视。

ONE-DIMENSIONAL CONSOLIDATION OF LAYERED SOILS WITH IMPEDED BOUNDARIES UNDER TIME-DEPENDENT LOADINGS

On the basis of Terzaghi's one-dimensional consolidation theory, the variation of effective stress ratio in layered saturated soils with impeded boundaries under time-dependent loading was studied. By the method of Laplace transform, the solution was presented. Influences of different kinds of cyclic loadings and impeded boundaries conditions were discussed. Through numerical inversion of Laplace transform, useful illustrations were given considering several common time-dependent loadings. Pervious or impervious boundary condition is just the special case of the problem considered here. Compared with average index method,the results from the method illustrated are more accurate.

Study on one—dimensional consolidation of saturated soil with semi—pervious boundaries and under cyclic loading

The variation of effective stress ratio of stratfied soil with semi pervious boundaries and under cyclic loading was analyzed on the basis of Terzaghi's one dimensional consolidation assumptions. A solution by Laplace Transform was obtained for the case when the soil was under time varied loading. With numerical inversion of Laplace Transform, some useful results were obtained for several kinds of commonly encountered loadings. The results can be meaningful in engineering practice.

硬壳层对管桩复合地基桩-土应力比的影响

为研究就地固化硬壳层对预应力管桩复合地基桩-土应力比的影响,以绍兴钱滨线泥浆池路段为背景,开展现场试验和数值模拟分析,研究路堤荷载作用下预应力管桩复合地基的受力和变形;从桩-土应力比的角度,着重探讨硬壳层对桩基复合地基承载性能的影响规律;分析路堤高度与桩帽净间距之比、桩帽宽度与桩帽净间距之比等设计参数对桩-土应力比发展的影响机制.研究结果表明:硬壳层的存在能够有效提高桩基复合地基的承载特性;在本文试验条件下,就地固化硬壳层的预应力管桩复合地基最大水平位移发生在地表以下5~6 m处,区别于传统桩基复合地基的土体水平位移沿深度逐渐降低的规律;桩-土应力比在23~37,高于传统桩基复合地基.

长江漫滩相软土动剪切模量与阻尼比特性试验研究

为探究长江漫滩相软土的动剪切模量和阻尼比变化特征,利用共振柱仪和循环三轴仪对原状的南京长江漫滩相软土开展系列试验研究,探讨不同固结条件下漫滩相软土最大动剪切模量G_(max)、动剪切模量比G/G_(max)和阻尼比λ的变化规律。试验结果表明:随初始有效围压、固结应力比和固结度增加,漫滩相软土在各应变范围内G均规律性增大,阻尼比λ均规律性减小;同时给出考虑初始静应力的G_(max)建议公式及不同固结度下G_(max)的折减系数,并通过与其他区域软土的对比发现,固结比对长江漫滩相软土的G_(max)影响程度较大;在Martin-Davidenkov模型中,不同固结条件对G/G_(max)-γ关系的拟合参数α、β无显著影响,但与拟合参数γ_(0)存在一定相关,并最终给出相关公式及参数值。

柱面SH波作用下管道的动力响应

在地下空间开发建设过程中,钻爆法开挖诱发的爆破地震波对地下管道安全至关重要。当爆源距离管道较近时,波阵面的曲率会对管道的爆破动力响应特性产生显著影响。采用波函数展开法研究了柱面SH波爆破作用下管道的动应力集中问题,首先讨论了混凝土管道和PVC管道的动应力集中系数分布规律,进而探讨了一般情况下波源到管道轴线距离、入射波频率以及管道与土层剪切模量比η对管道内壁动应力集中系数的影响。结果表明:相较于PVC管道,混凝土管道内壁的动应力集中系数分布形状对柱面SH波频率较敏感;η是影响管道动应力集中系数的重要指标,当入射波频率一定时,随着η的增大,管道最大动应力集中系数也逐渐增大;η一定时,随着入射波频率增大,管道最大动应力集中系数逐渐减小;波源到管道轴线距离会因波阵面曲率对管道破坏位置产生影响,而其对最大动应力集中系数的影响较小。

粗粒料静止侧压力系数及其变形特性试验

土体的静止侧压力系数K_0是其重要的力学参数之一,合理地确定土体的K_0系数对土工结构应力变形的准确计算有重要的理论意义与实用价值。然而,准确测量土体的K_0系数并不容易,对粗颗粒土则更加困难。目前,能研究粗颗粒土K_0的试验仪器极少,对K_0系数的研究成果相应地也很少,而关于粗颗粒土在不同初始孔隙比下K_0系数的变化规律的研究几乎空白。为研究粗颗粒土的静止侧压力系数在不同初始孔隙比下的变化规律,研制了一种新型K_0试验仪。该仪器既能用于测定粗颗粒土的K_0系数,也可用于一般黏土或砂土K_0的测定,且可用于高应力条件下。对某级配粗粒料进行了不同初始孔隙比状态下的K_0压缩试验。试验粗颗粒土的母岩为似斑花岗岩,颗粒粒径范围<20 mm。试样高度为8 cm,直径为10 cm,初始孔隙比为0.3、0.4、0.5、0.6,试验最大竖向压力为3.7 MPa。结果表明:当对试验粗粒料在K_0状态下加载时,侧向应力与竖向应力之间呈现较好的线性关系,K_0为常数。初始孔隙比为0.3、0.4、0.5、0.6时,K_0的范围为0.30~0.45,孔隙比对K_0系数的影响显著;粗粒料的静止侧压力系数随着初始孔隙比的增加而增加,且两者之间近似呈直线关系;不同初始孔隙比条件下,试样的体积应变与平均正应力(或竖向应力)之间可用幂函数拟合;提出能够反映不同初始孔隙比的粗粒料K_0条件下的应力应变关系经验公式。

包裹碎石桩在粉质黏土地基中的承载特性研究

为了探究包裹碎石桩对粉质黏土地基的加固效果,基于模型试验和数值模拟方法,对包裹碎石桩与传统碎石桩复合地基承载力特性进行了研究,并分析了碎石模量、碎石内摩擦角和土工格栅刚度等参数对包裹碎石桩复合地基承载及变形的影响。结果表明:传统碎石桩复合地基在荷载小于20 kPa时,沉降增大不明显。当荷载大于30 kPa时,沉降迅速增大,复合地基失稳破坏;在一定的粒径范围内,相同级配下,碎石粒径越大,碎石桩整体变形越小,承载能力越高;包裹碎石桩的碎石模量在高应力状况下,对复合地基沉降的影响效果较为明显。当桩土模量比大于30时,其对复合地基的沉降影响逐渐减弱;增大碎石内摩擦角能有效增大桩土应力比,并提高桩身应力传递效率。随着内摩擦角的增大,复合地基的沉降逐渐减小,在高荷载水平下,其影响效果更加明显;土工格栅的包裹能减少复合地基沉降,但影响程度有限,当包裹刚度J>1000 kN/m时,对沉降的影响逐渐减弱。