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1.
In this study, two series of physical modeling experiments, with and without a grouting process, were conducted under different grouting pressures to study the effect of compaction grouting on the performance of compaction-grouted soil nails. In addition, a hyperbola-based model was proposed to describe the variation of the pullout forces with and without grouting. Some of the main conclusions drawn are as follows. First, the compaction effect initially influences the mobilized pullout force, but not the final stage of pullout; the large difference between the two series of tests in regard to the pullout force at the initial stage led to the first part of this conclusion. However, the final pullout force results of the tests, both those with and those without grouting, were similar. Second, once the soil condition changes, the compaction effect on the performance of a soil nail depends on the grouting pressure rather than the diameter of the grout bulb. Third, the difference in the soil response (i.e., vertical dilatancy and the vertical and horizontal squeezing effects) derived from the compaction grouting effect will result in the initial difference in the increased rate of the pullout force between the tests with a grouting process and those without. Finally, a hyperbola-based model was proposed to describe the variation of the pullout force of the model tests with and without grouting, through which the pullout force is available of prediction for the given diameter of grout bulb and pullout displacement. 相似文献
2.
This study proposed a new soil nail known as the compaction-grouted soil nail, and a physical model was established to investigate its pull-out behaviour with different grouting pressures. The study on scale effect of the physical model was performed subsequently via numerical modelling. Additionally, interface shear tests were performed using the same boundary conditions as the physical model test. The strength parameters obtained were used to estimate the pull-out resistance of a conventional soil nail. The merits of these two soil nail types were compared based on their pull-out resistances. The physical model test results showed that the pull-out resistance of the compaction-grouted soil nail increases with increasing grouting pressure. In addition, the pull-out resistance exhibits hardening behaviour without a yield point, indicating that the compaction-grouted soil nail enables soils to remain stable against a relatively large deformation before ultimate failure. Furthermore, a higher grouting pressure results in a higher rate of increase for pull-out resistance versus pull-out displacement, which improves the performance of the compaction-grouted soil nail in the stabilization of large deformation problems. A comparison of the two types of soil nails suggests that the new compaction-grouted soil nail is more sensitive to grouting pressure than the conventional soil nail in terms of pull-out resistance improvement. In other words, the performance (pull-out resistance) of the compaction-grouted soil nail can be markedly improved by increasing the grouting pressure without inducing any accidental or undesired cracking or soil displacement. 相似文献
3.
土钉的抗拔强度是土钉支护结构设计需要用到的重要参数。抗拔强度的大小取决于拔出过程中作用于土钉表面的法向应力的大小。通过室内模型抗拔试验以及三维有限元分析,研究了钻孔灌注型土钉在钻孔、注浆及拔出过程中土钉杆周围土体中的应力变化情况。研究发现,对于钻孔灌注型土钉,孔周土体中的应力在钻孔结束时几乎全部释放掉;对于低压灌浆土钉,灌浆结束到浆体硬化的过程中土钉杆周围土体中的应力没有得到有效恢复;拔出过程中,由于土体的剪胀变形受到约束,土钉周围土体中的应力随着拔出位移的增加逐渐增加,从而导致抗拔应力的增加,说明土的剪胀性对钻孔灌注型土钉来说非常重要,对于低剪胀性土,需要通过增加灌浆压力等方法对钻孔过程中释放掉的应力进行补偿 相似文献
4.
从连续性方程出发,考虑浆液压力对土体孔隙率的影响,分析推导了浆液在多孔介质中的渗流规律,并给出了扩散半径的简单近似计算公式;然后将二相流理论应用到注浆研究中,假设孔隙由水和浆液完全充填,且二者不相混溶,建立了浆液驱水的非稳定渗流模型。根据某大坝的实际情况,用FLAC软件中的二相流模块对大坝灌浆过程进行了模拟分析,并与推导公式相比较。由于二相流理论考虑了毛细压力的作用,模拟得到的浆液扩散速率递减得更快。模拟结果表明,浆液和水之间存在着一个过渡带,浆液的饱和度在不同时间和位置上是变化的。随着时间的延长,浆液扩散得越远,但其速率逐渐减小。扩散半径不仅与渗透系数有关,还与孔隙度有关,而且孔隙度较渗透系数对扩散半径有着更大的影响。二相流理论可以更好地模拟帷幕灌浆的浆液扩散情况。 相似文献
5.
This paper presents a non-destructive, low-cost, photo-based, 3D reconstruction technique for characterizing geo-materials with irregular shapes of a relatively large size. After being validated against two traditional volume measurement methods, namely the vernier caliper method and the fluid displacement method for regular and irregular shapes, respectively, 3D photogrammetry was used to analyse the grout bulbs formed in laboratory pressure grouting tests. The reconstructed 3D mesh model of the sample provides accurate and detailed 3D vertex data, which allowed the volume, densification efficiency and bleeding behaviour of the grout bulbs to be analysed. Comparing the bulb section views at different grouting pressures also offers an intuitive observation of the grout development and propagation process. Moreover, the 3D vertex data and surface area included in the model are of great importance in validating numerical predictions of the pressure grouting process and analysing the interface shear resistance of grouted soil nails or anchors. Compared to existing approaches, the new 3D photogrammetry method possesses several key advantages: (a) it does not require expensive, specialized equipment; (b) samples are not destroyed or modified during testing; (c) it allows to reconstruct objects of various scales and (d) the software is public domain. Therefore, the adoption of this 3D photogrammetry method will facilitate research in the pressure grouting process and can be extended to other problems in geotechnical engineering. 相似文献
6.
Tail void grouting initially does facilitate the action of ground loads around the lower half of the liner and no excess pressure being accumulated. However, at a later stage (almost at the completion of grouting), grout pressure becomes non-uniformly distributed around grout injection holes especially on the upper half of the liner. In the present study, the boundary and loading conditions were simulated by using a series of finite element analyses. It aimed to explore the effects of such temporary non-uniform loading conditions on development of the liner internal forces. The results obtained for tunnel with diameter of 6.0 m were presented. It was found that there were critical locations where application of non-uniform grouting pressure could result in large amounts of bending moment and deformation. Those critical locations; about ±30° to ±50° from crown of the tunnel, were about the locations where actual grouting was injected in the field. The stiffness of sub-soil beneath the tunnel invert had minor effect on the amount of induced structural forces. However, ground coverage was more important. The results, though cannot fully represent complicated tail grouting behaviours, provided a simple analytical procedure for exploring the effects of tail void grouting on the segmental liner. 相似文献
7.
The design of grouting engineering in practice is either based on conventional soil mechanics or empirical procedures ignoring the effect of degree of saturation (water content). In this study, a series of laboratory-pressurized grouting tests were conducted on unsaturated sand to reveal the influence of soil water content on the grouting characteristics. With combination of direct shear tests at constant water content, water retention tests as well as microscopy observations, the mechanisms that controlling the strength and in turn the grouting characteristics in unsaturated sand were interpreted from the perspective of water–air interface. It was found that the non-monotonic phenomena of grouting characteristics (injectability and diffusion characteristics) with increasing water content were strongly dependent on the shear strength, which is influenced by the apparent cohesion induced by capillary mechanisms relating to the water–air interface. The threshold value of the injectability and diffusion pattern is corresponding to the boundary of the two transition zones (two different desaturation mechanisms) in the water retention curve. In the primary transition zone, the water phase is interconnected with air bulbs entrapped. With the drainage of bulk water in the large pores, the amount of water menisci increases, generating larger and larger surface tension force between particles. Therefore, less and less grout was injected as the bearing capacity and shear strength increase. However, in the second transition zone, with the drainage of menisci water, the menisci area of each pores decreases, inducing less and less surface tension force. Thus, more and more grout was injected as the bearing capacity and shear strength decrease. It is hoped that the work in this study will facilitate researching the grouting mechanisms in unsaturated soil, thus optimizing the grouting parameters in engineering practice. 相似文献
8.
Permeation grouting is the injection of a fluid grout into ground and production of a solidified mass to carry increased load
and/or fill voids to control water flow. This study examined a technology of constructing horizontal gel barrier by the permeation
grouting through multiple vertical injection pipes. Colloidal Silica (CS) solution was used as a gelling liquid to be injected
and solidified in the unsaturated soil. Formation of a gel bulb was simulated and the results were compared with those obtained
from the sleeve pipe injection with horizontal pipes. The gel bulb generated from the injection method employing vertical
pipe showed greater sensitivity of the bulb’s lateral extent to variations in operating conditions compared to the sleeve
pipe injection. Although in the limited numbers, in all examined cases, the vertical-pipe system appeared to consume a larger
volume of CS solution than the horizontal-pipe system to form an equivalent horizontal gel barrier. This result supports our
intuition that the injection with the horizontal pipes may be more effective than the one with vertical pipes in constructing
horizontal gel barrier. 相似文献
9.
在盾构管片壁后注浆时,由于浆液渗透压的存在,浆液会向外渗透,浆体本身逐渐固结,作用在管片上的注浆压力逐渐消散。考虑到浆液往周边地层渗透过程中由于黏度的变化会引起地层渗透系数的变化,推导了基于浆液黏度时变性的浆体固结变形方程和浆液压力消散方程,分析了浆液固结、消散及浆液压力沿管片外壁分布规律,为精细化分析施工阶段管片受力提供了计算依据。计算结果表明:浆液从注浆口喷出后,浆液黏性的增大使浆液流动性减小,注浆压力消散幅度减小,浆液消散持续时间变短。浆液配比与围岩渗透系数变化对注浆压力消散幅度及消散持续时间存在一定影响。现场实测结果与理论计算结果较为一致。在进行壁后注浆时,应充分考虑时变作用下浆液消散作用的影响。 相似文献
10.
An important design parameter in cement-grouted soil nailed structures is the shear strength at the interface between the grouted nail and the surrounding soil. Both field and laboratory pull-out tests are normally used to investigate this interface shear strength. However, these tests have some limitations. In this study, direct shear box tests are adopted to investigate the interface shear strength behaviour between a completely decomposed granite (CDG) soil and a cement grout plate. Tests were carried out in a large direct shear test apparatus over a range of constant normal stress, soil moisture content, and soil–cement grout interface surface waviness. The laboratory test procedures are briefly described and the main test results are presented, followed by a discussion of the shear behaviour of the soil–cement grout interface. The interface shear behaviour is compared with the shear strength behaviour of the same soil tested under comparable conditions. It is shown that the shear stress–displacement behaviour of the soil–cement grout interface is similar to that of the soil alone. The test results indicate that the interface shear strength of the CDG and cement grout material depends on the normal stress level, the soil moisture content, and the interface surface waviness. 相似文献
11.
劈裂注浆作为一种有效的土体加固方法,其理论研究落后于工程实践。提出了基于弥散裂缝模型和流体体积法的劈裂注浆有限元分析方法,并通过ABAQUS二次开发编写劈裂注浆有限元程序。数值分析结果能与室内试验较好吻合,验证了有限元算法的合理性。在此基础上研究了注浆孔埋深和注浆流量对劈裂浆脉形状的影响。结果表明,劈裂注浆过程可分为起劈和劈裂发展两个阶段。当劈裂浆脉扩展到模型边界后,继续注浆会引起注浆压力的大幅提高和已有浆脉宽度的增加。随着注浆孔埋深的增加,浆脉分支减少,长度减小,宽度增加,劈裂浆脉形状的主要控制因素从土体参数的随机性变成大小主应力值的差异。注浆量一定的情况下,注浆速率越大,劈裂浆脉长度越短,宽度越大,注浆终压也越大。研究为劈裂注浆的工程应用提供理论支撑。 相似文献
12.
Soil nailing is the most popular technique for stabilizing newly formed and existing sub-standard slopes in Hong Kong because of its economic and technical advantages. The nail–soil interface shear resistance is an important parameter in design of soil nailed structures. A three-dimensional finite element model was established and used for simulating soil nail pull-out tests. The finite element model was verified by comparing simulated results with measured data. The agreement between the experimental and simulated results in terms of both average pull-out shear stress and stress variation was very good. Using this finite element model, a parametric study was carried out to study the influences of the overburden pressure and soil dilation angle on the soil nail pull-out resistance. The simulated peak pull-out resistance was not directly related to the overburden pressure, which was coincident with the observations in laboratory pull-out tests. The simulated pull-out resistance increased significantly with the increase in dilation angle of the shearing zone. This analysis indicated that the constrained dilatancy of the nail–soil interface and the soil surrounding the nail contributed a lot to the development of peak pull-out resistance. 相似文献
13.
A theory is proposed to evaluate the loosening earth pressure (vertical earth pressure after excavation) acting on a shallow tunnel in unsaturated ground with an arbitrary groundwater level. The theory is developed based on the limit equilibrium theory, combining soil–water characteristic curves, Mohr–Coulomb failure criteria, and effective stress for unsaturated soils. The proposed theory is applied to predict the vertical distribution of loosening earth pressure in unsaturated ground, which shows a significant difference from that in saturated ground. In unsaturated ground, suction contributes to the increase in effective loosening earth pressure and shear resistance. The remarkable effects of groundwater depth, soil type, and scale of overburden height and trapdoor width on loosening earth pressure are also revealed. Based on the soil–water characteristic curve, the degree of saturation decreases, which causes wet density to decrease and the total and effective loosening earth pressures to have contrary tendencies. Moreover, effective loosening earth pressures vary with soil type as the degree of saturation varies. The total loosening earth pressures are, however, very similar regardless of soil type, because wet density and shear resistance have similar tendencies. The proposed theory provides a valid model for loosening earth pressure in unsaturated ground that will be useful for shallow tunnel excavations. 相似文献
14.
[摘 要] 灌浆是岩溶土洞地基处理的一种常用方法,灌浆压力对灌浆施工的有效性有着至关重要
的作用。针对岩溶地区土洞地基所处地质环境的复杂性,为了科学合理地确定其灌浆施工过程中的灌
浆压力,本文通过传统理论力学分析方法以及数值模拟方法对灌浆过程中灌浆压力变化及其引起的整
个地基应力应变场的变化进行了分析与研究,同时与施工现场监测结果进行了对比研究。研究结果表
明:在灌浆施工过程中,合理适当的灌浆压力既能确保浆液充分填充土洞,又不会破坏原土体结构;通过
对原土体抬升位移的监测,能准确预测与控制施工时的灌浆压力;理论分析与数值模拟结果和现场情况
吻合较好,为灌浆工艺施工提供了可靠的理论依据与指导。 相似文献
15.
This study presents an innovative technique of executing soil nails called sectorized post grouting (SPG). The most utilized technique of soil nail grouting is gravity grouting, with the literature reporting advances in pressurized grouting. Although obtaining higher pullout resistance of soil nails, pressurized grouting, mostly done in single-stage grouting, does not compensate for exudation and its use in higher nail lengths is difficult. Thus, a technique has been developed that compensates for exudation, with easier application in lengthier nails. The technique was qualitatively assessed to evaluate its surface roughness and later applied in seven real soil nailing works, where it could be quantitatively assessed. The results show that sectorized post-grouted nails obtained greater pullout resistances than gravity grouted and single-stage grouted nails. Although similar improvement was found in tube-à-manchette (TAM) grouted nails, this method presents lower economic efficiency than sectorized post grouting. The pullout resistance results obtained in this study can be utilized in future soil nailing works executed utilizing SPG. 相似文献
16.
采用注浆模拟试验与数值分析等研究方法,探讨了砾石土层中注浆的注浆量、浆液扩散半径及注浆形成的结石体抗压强度等参数预测计算模型,并设计试验对其进行了验证。试验结果表明,砾石土层中注浆的注浆量、浆液扩散半径及结石体的抗压强度等参数预测计算模型计算的注浆量、浆液扩散半径与注浆结石体抗压强度的理论值与试验实测值间虽分别有10%、5%、10%左右的差异,但均相差不大,因此,可用来预测砾石土层实际注浆工程中的注浆量、浆液扩散半径及注浆形成的结石体的抗压强度等参数。研究成果不仅可为砾石土层实际注浆工程实践提供理论支撑,还可为砾石土诱发的滑坡、泥石流等灾害的防灾减灾提供技术参考。 相似文献
17.
目前孔隙性围岩注浆参数大多是根据浅表土的渗透系数确定的,这不适合深层土注浆。本文从注浆压力对浆液扩散影响最显著的特点出发,提出用注浆孔与抽水孔同时工作的方法,这种方法可使浆液水力坡度增大,增加浆液有效扩散半径,提高深表土层注浆效果。 相似文献
18.
Soil nails have been widely used to stabilize slopes and earth retaining structures in many countries and regions, especially, in Hong Kong. The analysis of the interaction between a soil nail and the surrounding soil is of great interests to both design engineers and researchers. In this paper, authors present a simple mathematical model for the interaction analysis of a soil nail and the surrounding soil considering a few key factors which are soil dilation, bending of the soil nail, vertical pressure, and non-linear subgrade reaction stiffness. The lateral subgrade reaction between the soil and the soil nail is assumed to obey a hyperbolic relation. Reported test data in the literature are used to verify the present model. The contributions of the soil-nail bending on the pull-out resistance are evaluated in two case studies. 相似文献
19.
水平旋喷桩施工期间,大量高压流体注入土层,引起土层内部产生较大的膨胀作用,致使周围一定区域的土体发生变形。水平旋喷桩施工引起土体变形可以归结为压力膨胀和体积膨胀共同作用的问题。依托单根水平旋喷桩施工的现场实例,建立了水平旋喷桩施工引起土体变形的数值模型。将水平旋喷桩施工引起的土体变形问题简化为圆孔的膨胀问题,可以统筹考虑注浆压力和注浆流量的影响。首先需要确定注浆压力的影响半径和注浆流量引起的体积膨胀比,然后可以通过数值模型计算膨胀引起的土体变形。数值分析结果与现场实测值的对比表明,当注浆压力影响半径为成桩半径的6倍时,数值计算结果与现场实测值吻合较好。 相似文献
20.
在后压浆过程中,普遍存在浆液沿钻孔灌注桩上升的现象。在压力作用下,浆液沿着桩土间软弱层向上运动,对桩侧土进行挤压,在使桩径扩大的同时,对桩周土进行加固。通过对后压浆作用机制进行分析,利用宾汉流体的本构方程与运动方程推导出浆液上升高度的计算公式;应用圆柱孔扩张理论,分别推导出桩周土处于弹性状态和弹塑性状态时的径向位移计算公式。计算结果与实际工程的实测结果进行对比,基本吻合。 相似文献
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