共查询到20条相似文献,搜索用时 31 毫秒
1.
The uplift response of symmetrical anchor plates with and without geogrid reinforcement layers has been evaluated in model tests and numerical simulations using PLAXIS. Many parameters of the reinforcement layers were used to reinforce the sandy soil over circular, square, and rectangular symmetrical anchor plates of various sizes. In the current research, different parameters, such as relative density of sand and embedment ratios, in conjunction with geogrid reinforcement layer parameters including size, number of layers, and the proximity of the layer to the circular anchor plate, were investigated in a scale model. The failure mechanism and the associated rupture surface were observed and evaluated. Test results showed that using geogrid reinforcement layers significantly improves the uplift capacity of symmetrical anchor plates. It was found that inclusion of one geogrid layer resting directly on top of the symmetrical anchor plate was more effective in enhancing the symmetrical anchor capacity than the layer itself. It was also found that the inclusion of one geogrid layer on the symmetrical anchor plate improved the uplift capacity more than the same symmetrical anchor plate embedded without a reinforcement layer. The single geogrid layer was also more effective in enhancing the uplift capacity compared to the multiple geogrid layer reinforcement approach. In general, the results show that the uplift capacity of symmetrical anchor plates in loose and dense sand can be significantly increased by the inclusion of geogrid layers. It was also observed that the inclusion of geogrid layers reduces the requirement for a higher L/D ratio to achieve the required uplift capacity. The results of the laboratory and numerical analysis are found to be in agreement in terms of the breakout factor and failure mechanism pattern. 相似文献
2.
土工格栅加筋能够有效改善锚板的抗拔承载力,然而锚板在上拔过程中的破坏机制及其影响因素尚需进一步研究。针对砂土中水平锚板的抗拔特性,开展了多组锚板上拔试验,分析了砂土密实度、锚板埋深、土工格栅布设层数和位置等因素的影响,结合粒子图像测速(particle image velocimetry,简称PIV)技术探究了锚板周边土体的变形破坏机制。研究结果表明:单层接触式格栅加筋对锚板的抗拔承载力有明显的提升,且其对土体性能的改善优于非接触式格栅加筋情况,其原因与土工格栅变形量和上覆土体重力有关;当采用双层土工格栅加筋时,下层格栅可充分发挥限制土体侧向变形和均化应力分布的作用,上层格栅相对而言贡献不大;采用土工格栅加筋后,锚-土界面附近土体的变形模式发生了明显的变化,其破坏面相比未加筋前向内侧收敛,且剪应变分布更为均匀。 相似文献
3.
Experimental Study of Bearing Capacity of Granular Soils,Reinforced with Innovative Grid-Anchor System 总被引:1,自引:0,他引:1
Mansour Mosallanezhad Nader Hataf Arsalan Ghahramani 《Geotechnical and Geological Engineering》2008,26(3):299-312
The pull-out resistance of reinforcing elements is one of the most significant factors in increasing the bearing capacity
of geosynthetic reinforced soils. In this research a new reinforcing element that includes elements (anchors) attached to
ordinary geogrid for increasing the pull-out resistance of reinforcements is introduced. Reinforcement therefore consists
of geogrid and anchors with cubic elements that attached to the geogrid, named (by the authors) Grid-Anchor. A total of 45
load tests were performed to investigate the bearing capacity of square footing on sand reinforced with this system. The effect
of depth of the first reinforcement layer, the vertical spacing, the number and width of reinforcement layers, the distance
that anchors are effective, effect of relative density, low strain stiffness and stiffness after local shear were investigated.
Laboratory tests showed that when a single layer of reinforcement is used there is an optimum reinforcement embedment depth
for which the bearing capacity is the greatest. There also appeared to be an optimum vertical spacing of reinforcing layers
for multi-layer reinforced sand. The bearing capacity was also found to increase with increasing number of reinforcement layer,
if the reinforcement were placed within a range of effective depth. The effect of soil density also is investigated. Finally
the results were compared with the bearing capacity of footings on non-reinforced sand and sand reinforced with ordinary geogrid
and the advantages of the Grid-Anchor were highlighted. Test results indicated that the use of Grid-Anchor to reinforce the
sand increased the ultimate bearing capacity of shallow square footing by a factor of 3.0 and 1.8 times compared to that for
un-reinforced soil and soil reinforced with ordinary geogrid, respectively. 相似文献
4.
带加强肋土工格栅的极限拉拔阻力分析 总被引:1,自引:0,他引:1
在立体加筋体系研究基础上,提出了带加强肋土工格栅加筋,即通过对普通土工格栅的肋进行加强处理,使其肋具有一定的竖向厚度,构成具有立体加筋效果的带加强肋土工格栅。采用染色砂法,通过带加强肋土工格栅的拉拔试验进行了拉拔力机理分析。在拉拔过程中,加强肋前方土体会首先被挤密加强,成为一个刚性的楔体,然后刚性楔与筋材一起运动成为一个土筋共同体。推导了带加强肋土工格栅加筋土的拉拔阻力模型,分析中将加强肋的侧阻力作用简化为侧向土压力的作用,采用极限平衡理论,通过两侧的主动土压力与被动土压力进行计算。根据所建立的拉拔阻力模型计算出带加强肋土工格栅加筋的极限拉拔阻力,并与试验结果进行了对比,两者基本吻合 相似文献
5.
土工格栅加筋土地基平板载荷试验研究 总被引:2,自引:0,他引:2
在近年来的岩土工程实践中,土工合成材料加筋土技术得到越来越广泛的应用。采用平板载荷板试验方法,进行了多组加筋砂土地基模型试验,监测和分析了不同加筋材料(双向格栅与四向格栅)和加筋层数对土工格栅加筋土地基承载特性的影响。研究结果表明:土工格栅加筋土地基与无筋地基相比,承载性能得到改善,双层加筋明显优于单层加筋;土工格栅加筋限制了浅层地基的侧向变形,相同荷载下地基沉降减小,可恢复变形增大;模型试验中测得加筋材料应变和拉力很小,与土工格栅强度相比,拉伸模量对加筋土地基承载力的贡献更大。 相似文献
6.
Experimental and numerical investigations into the bearing capacity of circular footing on geogrid-reinforced compacted granular fill layer overlying on natural clay deposit have been conducted in this study. A total of 8 field tests were carried out using circular model rigid footing with a diameter of 0.30 m. 3D numerical analyses were performed to simulate soil behavior using finite element program Plaxis 3D Foundation. The results from the FE analysis are in very good agreement with the experimental observations. It is shown that the degree of improvement depends on thickness of granular fill layer and properties and configuration of geogrid layers. Parameters of the experimental and numerical analyses include depth of first reinforcement, vertical spacing of reinforcement layers. The results indicate that the use of geogrid-reinforced granular fill layers over natural clay soils has considerable effects on the bearing capacity and significantly reduces the lateral displacement and vertical displacement of the footing. 相似文献
7.
In the present study, an approximate method has been suggested to calculate the ultimate bearing capacity of a square footing
resting on reinforced layered soil. The soil is reinforced with horizontal layers of reinforcement in the top layer of soil
only. The pre requisite to the method is the ultimate bearing capacity of unreinforced layered soil, which can be determined
from the methods already available in literature. The results have been validated with the model tests conducted on two layered
soil compacted at different densities and the top layer reinforced with horizontal layers of geogrid reinforcement. 相似文献
8.
9.
The ultimate bearing capacity of strip footings resting on subsoil consisting of a strong sand layer (reinforced/unreinforced)
overlying a low bearing capacity sand deposit has been investigated. Three principal problems were analysed based on results
obtained from the model tests as follows: (1) the effect of stratified subsoil on the foundations bearing capacity; (2) the
effect of reinforcing the top layer with horizontal layers of geogrid reinforcement on the bearing capacity; (3) effect of
reinforcing stratified subsoil (reinforced and unreinforced) on the settlement of the foundation. It has been observed that
reinforcing the subsoil after replacing the top layer of soil with a well-graded soil is beneficial as the mobilization of
soil-reinforcement frictional resistance will increase. 相似文献
10.
Numerical Study of Behavior of Circular Footing on Geogrid-Reinforced Sand Under Static and Dynamic Loading 总被引:3,自引:1,他引:2
A. F. Zidan 《Geotechnical and Geological Engineering》2012,30(2):499-510
A series of axi-symmetry models using finite element analyses were performed to investigate the behavior of circular footings
over reinforced sand under static and dynamic loading. Geogrid was modeled as an elastic element and the soil was modeled
using hardening soil model which use an elasto-plastic hyperbolic stress–strain relation. Several parameters including number
of geogrid layers, depth to the first geogrid layer, spacing between layers and load amplitude of dynamic loading are selected
in this paper to investigate the influence of these parameters on the performance of reinforced systems under both static
and dynamic loads. The numerical studies demonstrated that the presence of geogrid in sand makes the relationship between
contact pressure and settlement of reinforced system nearly linear until reaching the failure stage. The rate of footing settlement
decreases as the number of loading cycles increases and the optimum values of the depth of first geogrid layer and spacing
between layers is found 20% of the footing diameter. Some significant observations on the performance of footing-geogrid systems
with change of the values of parametric study are presented in this paper. 相似文献
11.
由于加筋土界面作用的复杂性,加筋土工程建设中铺设土工格栅时往往采用经验的方法,很大程度上造成了土工格栅的浪费及工程安全隐患,理清不同填料筋土界面作用的影响范围,有助于确定加筋土结构的合理加筋间距。为了揭示不同填料筋土界面作用的影响范围,采用4种不同类型的砂土与格栅在不同法向应力下进行了一系列的拉拔试验,并结合数字图像量测技术,分析了不同类型砂土下界面剪切带厚度、颗粒位移矢量、格栅拉拔阻力峰值及应变等演变规律。研究表明:界面剪切带厚度H随法向应力σv与砂土平均粒径d50的增加而增大,通过多变量拟合的方法,得到了H、σv与d50三者之间的函数表达式;格栅在拉拔过程中,砂土颗粒位移矢量以土工格栅为界有着显著的差别,格栅上部的颗粒位移矢量明显大于下部颗粒,且在格栅上下一定范围内会形成颗粒位移矢量集中带;拉拔阻力峰值随σv及d50的增加而增大;不同类型砂土各区段的格栅应变均表现出由前向后依次递减的趋势。 相似文献
12.
作为新型的深水海洋基础型式,吸力式沉箱基础被广泛地用于系泊深水海洋设施中,从而承受巨大的倾斜上拔荷载。在上拔荷载水平分量与竖向分量的共同作用下,吸力式沉箱的承载特性及其工作性能评价是海洋工程设计与建设中的关键技术问题之一。然而现有的理论分析与试验研究并不能满足工程实践的需要,因此,对吸力式沉箱基础的极限承载力分析建立了有限元数值计算方法。当沉箱基础在快速拔出过程中,正常固结黏土处于完全不排水状态,沉箱基础发生整体破坏时表现出反向地基承载力失稳模式,此时沉箱基础所发挥的极限承载能力往往最大。为此,在数值计算中直接假定沉箱基础及其周围土体处于完全不排水状态,针对不同的沉箱长径比,分别确定了在竖向上拔荷载和水平拉拔的单独作用下沉箱基础极限承载力。对比发现:竖向上拔极限承载力有限元解能够较好地与理论计算结果相符合,而水平极限承载力解与理论计算结果存在一定的差异。 相似文献
13.
A numerical study incorporating three-dimensional Eulerian large deformation finite element analyses is performed to investigate the pullout process of horizontal square plate anchors in both hypothetical weightless soil and soil with self-weight. The validity of the numerical model is established through verification against published experimental and numerical results. The failure mechanisms during the pullout process under different conditions are then investigated. Three types of failure mechanism are observed; of which only two have been reported in the literature. The third mechanism identified in this study, which is a partially localized flow mechanism, is operative when the soil overburden ratio is not high enough to mobilize the full flow mechanism. The influence of soil self-weight is directly investigated by incorporating the density of the soil in the finite element model and maintaining the gravitational acceleration field throughout the analysis. The critical overburden ratio corresponding to the full transition to a localized plastic flow mechanism is identified in this study. The effect of the soil rigidity index (E/su) on the anchor uplift capability has not been systematically investigated in earlier studies. Contrary to the general failure mechanism and the full flow mechanism described in the literature, the capacity factor corresponding to this new mechanism increases with increasing E/su. The capacity factors for square plate anchors corresponding to different anchor embedment ratios, overburden ratios and E/su are provided in the form of design charts. 相似文献
14.
在水平-垂直加筋体系研究的基础上,对单向土工格栅设置了加强肋,使其具备立体加筋效果。通过大量的拉拔试验,研究了带加强肋土工格栅加筋的筋-土界面特性。通过对汇总得到的36组拉拔试验数据进行分析,探讨了肋间距与肋厚对极限拉拔阻力的影响情况。试验结果表明:在相同法向应力作用下,带加强肋土工格栅的极限拉拔阻力明显高于普通土工格栅,其极限拉拔阻力随着加强肋肋厚的增加而显著增加,并随着加强肋肋距的增加而逐渐减小。在试验基础上,进一步分析了带加强肋土工格栅与砂土的相互作用机制,探讨了极限拉拔阻力的影响因素,建立了拉拔阻力理论公式,并将试验结果与理论值比较,二者基本吻合。 相似文献
15.
Umashankar Balunaini Sungmin Yoon Monica Prezzi Rodrigo Salgado 《Geotechnical and Geological Engineering》2014,32(2):505-523
Use of tire shred–soil mixtures as backfill materials in mechanically stabilized earth walls has several advantages over other backfill materials: (1) good drainage, (2) high shear strength, and (3) low compacted unit weight. This paper presents the results of laboratory pullout tests performed on uniaxial geogrid embedded in tire shred–sand mixtures. The effects of tire shred size, tire shred–sand mixing ratio and confining pressure on the interaction between the geogrid and tire shred–sand mixtures are evaluated. Three sizes of tire shreds are considered: tire chips (with 9.5 mm nominal size), tire shreds 50-to-100 mm long and tire shreds 100-to-200 mm in length, with mixing ratios of 0, 12, 25 and 100 % of tire shreds in the mixtures (by weight). Based on compaction testing of a number of mixtures, the optimal mixing proportion of tire shreds and sand was found to lie between 25/75 and 30/70 (by weight of tire shred and sand); this is equivalent to approximately 40/60 and 50/50, respectively, by volume of tire shreds and sand. The pullout resistance of a geogrid embedded in tire shred–sand mixtures is significantly higher than that of the same geogrid embedded in tire shreds only. The size of the tire shreds has negligible effect on the pullout resistance of a geogrid embedded in mixtures prepared with either low (12/88 mix) or high (100/0 mix) tire shred content. However, when the 25/75 mixture is used, greater geogrid pullout resistance was obtained for the geogrid embedded in tire chip–sand mixtures than in tire shred–sand mixtures. 相似文献
16.
剪切速率和材料特性对筋-土界面抗剪强度的影响 总被引:1,自引:0,他引:1
土工合成材料与填料之间的界面强度参数是加筋-土工程设计的关键技术指标,筋-土界面的直剪试验和拉拔试验在界面剪切特性试验研究中应用最为广泛。利用土工格栅、土工织物与砂土的直剪试验和拉拔试验,研究了剪切速率和筋材性质对筋-土界面强度的影响。研究结果表明,当剪切速率不超过一定界限(如7.0 mm/min)时,其对直剪试验结果的影响可以忽略;筋-土界面强度受加筋材料及砂土特性的影响,双向聚丙烯土工格栅和土工织物与砂土之间的内摩擦角与纯砂接近,界面强度较高,而玻纤格栅因其延伸率低和网格尺寸较小,与砂土的界面强度比较低。 相似文献
17.
锚板在正常固结黏土中的承载力 总被引:5,自引:0,他引:5
在岩土工程中,锚板通常被用来提供竖直或水平抗拔力,比如发射塔的基础、板桩墙结构和悬浮式海洋平台的基础。采用弹-塑性有限元方法对正常固结不排水黏土中的条形锚板进行数值分析,以图表形式给出了不同埋深率、不同上拔倾角、不同锚-土黏结形式下条形锚板的承载力系数和周围土体的流动机构,分析了土体自重对锚板承载力的影响,并给出了不同情况下锚板的极限承载力系数。采用基于重新划分网格并插值状态变量的大变形分析方法(RITSS),分析了正常固结黏土中锚板在连续拔出过程中的承载力变化以及土重对锚-土分离模式的影响。 相似文献
18.
This paper presents a method to evaluate reliability for internal stability of reinforced soil structures using reliability
based design optimization. Using limit equilibrium method and assuming the failure surface to be logarithmic spiral, analysis
is conducted to maintain internal stability against both tensile and pullout failure of the reinforcements. Properties of
backfill soil and strength of the geosynthetic reinforcement are considered as random variables. For the seismic conditions,
reliability indices of all the geosynthetic layers in relation to tension and pullout failure modes are determined for different
magnitudes of seismic accelerations both in the horizontal and vertical directions, surcharge load and design strength of
the reinforcement. The efforts have been made to obtain the number of layers, pullout length and total length of the reinforcement
at each level for the desired target reliability index values against tension and pullout modes of failure. The influence
of horizontal and vertical earthquake acceleration, surcharge load, design strength of the reinforcement, coefficient of variation
of soil friction angle and design strength of the reinforcement on number of layers, pullout length and total length of the
reinforcement needed for the stability at each level is discussed. 相似文献
19.
Bearing capacity of strip foundation on geogrid-reinforced sand 总被引:1,自引:0,他引:1
E. C. Shin B. M. Das E. S. Lee C. Atalar 《Geotechnical and Geological Engineering》2002,20(2):169-180
Results of small-scale laboratory model tests to determine the ultimate bearing capacity of a strip foundation supported by sand with multiple layers of geogrid reinforcement are presented. Tests were conducted with only one type of geogrid and a sand compacted to one relative density. The embedment ratio of the foundation was varied from zero to 0.6. It is found that, for the given reinforcement-depth ratio, the bearing capacity ratio with respect to ultimate load increases with embedment. The relationship between the bearing capacity ratio at ultimate load and at limited levels of settlement (less than or equal to 5% of foundation width) is also presented. The bearing capacity ratio at limited levels of settlement is smaller than the value at ultimate load. 相似文献
20.
土工格栅加筋砂土的变形与破坏机理解析 总被引:8,自引:2,他引:8
利用可考虑局部破坏的非线性弹塑性有限元,对无加筋和加筋砂土的平面应变压缩试验结果进行了从小变形到破坏的全过程数值解析。加筋砂土试验体用土工格栅分6层和11层进行加筋加固。将等价二维有限元解析所得到的解析结果与试验得到的实测值进行了较为伞面的比较,结果表明:合理的二维非线性弹塑性有限元解析,不仅可以较为精确的模拟加筋砂土的平均心力-应变特性,而且还可以全面地调查试验体的局部应力-应变分布以及剪切破坏发生状况,从而,对加筋砂土的变彤破坏以及加筋材的加州机理有一个更加全面合理的认识。 相似文献