共查询到20条相似文献,搜索用时 453 毫秒
1.
Pressure-grouted soil nails have been increasingly used for stabilizing slopes. The pullout resistance of a soil nail is the main factor for reinforcing the slope stability. In this study, a two-dimensional axisymmetric finite element model is developed to simulate the pullout behavior of a pressure-grouted soil nail. This model is verified with field pullout tests result of a pressure-grouted soil nails by comparing with gravity-grouted soil nails. Based on the analysis, a three-dimensional finite element model is proposed for stability analysis of a slope reinforced with pressure-grouted soil nails using the shear strength reduction method. A series of numerical slope stability analyses for a slope composed of weathered soil are performed to investigate the effects of grouting pressure on the slope stability and the behavior of the soil nails. Special attention is given to the installation effect of a pressure-grouted soil nails. It is found from the result of this study that the pressure-grouted soil nails increase the safety factor by fifty percent in a slope by increasing the stiffness of the nailed slope system. Numerical analysis results confirm the fact that the pullout resistance of a soil nail is the main factor for stabilizing slopes rather than the shear resistance of the soil nail. 相似文献
2.
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
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.
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
5.
A study has been done for soil nailed cut considering circular type wedge failure by friction circle method. Effect of variation
of design parameters such as nail length, nail diameter, nail inclination, wall inclination, angle of internal friction of
soil, etc. have been incorporated in the study to determine the factor of safety of nailed open cuts. It is seen that at sites
which are susceptible to rainfall induced erosion, the erosion may be checked to a greater degree by soil nailing. This methodology
can be adopted at embankment sites, natural slopes, highways, etc. including free board of riverbank area of natural rivers.
The study shows that grouted nails perform better than driven nails. A case study further confirms the analytical findings. 相似文献
6.
This paper presents reliability analyses of soil nail walls against two external ultimate limit states, global and sliding stabilities, which are related to the external stability failures of soil nail walls. Reliability analyses are conducted using Monte Carlo simulation technique. Soil nailing is a popular retaining system in highway construction and slope stabilization, and its current design practice is still based on the working stress design. There remains a need to establish a more rational design framework—load and resistance factor design—based on the concept of limit state design and reliability analysis for soil nail walls. The development of load and resistance factor design approach must consider multiple ultimate limit states, associated with external, internal, and facing failures. The analyses of resistance factors against two external failures are conducted in this study considering various influencing factors, including statistical parameters of soil friction angle, ultimate bond strength between soil and nails, soil type, wall geometry (wall height, back slope angle, and face batter angle), and nail configurations (nail inclination angle, drillhole diameter, and nail spacing). In the end, a series of resistance factors are proposed for potential application of load and resistance factor design approach against external failures for soil nail walls according to different design codes. 相似文献
7.
灌浆土钉在边坡加固工程中有着广泛的应用。土钉在不同条件下的抗拔机制仍是进一步研究的课题。通过建立一个三维有限元模型,研究土钉在不同上覆压力和剪胀作用下的土钉抗拔行为。采用摩尔-库仑模型模拟花岗岩土,土与土钉界面采用“接触对”和库仑摩擦模型描述。模型可以模拟土钉发生较大抗拔位移下发生滑移破坏的过程。模型参数通过三轴试验结果进行校正。通过与大尺寸室内抗拔试验结果相比较,验证了模型的有效性。模型展现了土钉在钻孔后和抗拔过程中土钉周围的土压力的变化。最后通过参数分析,研究了上覆压力和剪胀对土钉抗拔力的影响。结果显示,当上覆压力较小时,剪胀角对抗拔应力的影响较小。随着上覆压力的增加,剪胀角对抗拔应力的影响变得更加明显。 相似文献
8.
土钉支护技术在我国深基坑开挖和支护中己得到了广泛的应用,但对其工作机理和计算方法的研究尚不完善。以一个基坑土钉支护工程为实例,对基坑水平位移、土钉拉力进行现场测试,得出了土钉水平位移和拉力的分布规律:(1)基坑最大位移发生在基坑顶部;(2)沿基坑深度范围受力最大的土钉在中部;(3)单根土钉最大拉力作用点在其长度的中部,沿基坑深度方向土钉最大拉力作用点的连线形成的曲线是潜在最危险滑动面的位置。 相似文献
9.
土钉支护是加固机制上的锚固机制,土钉支护的受力和变形是随施工过程逐步变化的。采用追踪施工过程的增量计算方法,并将稳定性分析与土钉轴力计算相统一,根据稳定性要求来计算土钉受力,是土钉支护中土钉受力计算的合理途径。考虑到土钉支护中土与土钉共同作用以及潜在滑移面处土钉受力的特点,在土钉支护的稳定性分析中可以采用极限分析上限方法。根据上限方法中的相容速度场以及土钉受力与位移的关系,可确定在上限分析中每一开挖工况下土钉轴力增量的比例关系。应用上限方法的能量方程进行每一开挖工况下土钉支护稳定性的计算,即可优化求解出每一开挖工况下的土钉所需提供的能量耗散,而后依据上述确定的增量比例系数,即可求得该开挖工况下的土钉轴力增量,而各开挖工况下土钉轴力增量的积累即为最终土钉轴力。通过工程实例计算表明,上述方法是准确和有效的。 相似文献
10.
基于土钉抗拔力学模型的解析解,结合现场土钉抗拉试验工程实测数据,分析了水泥注浆体弹性模量Eg及钉土剪切变形系数K的变化对土钉受拉力学特性的影响。结果表明,随着Eg的增大,最大荷载下钉头位移逐渐减小,浅部钉土间相对位移和剪力有所减小,而深部则有所增大。Eg越大,钉土间相对位移和剪力沿钉身的变化越小,各部分侧阻分布趋于均匀。随着K的增大,最大荷载下土钉沿钉长各处的相对位移均减小,且减小比率逐渐降低,注浆对土钉的影响逐渐趋弱。相同变化率下K对土钉荷载-位移曲线的影响要大于Eg,而对钉土间剪力的影响则不及Eg的影响大。 相似文献
11.
Soil nailing has been widely used as a reinforcing technique to retain excavations and stabilise slopes. Proper assessment of the interaction between the nails and the surrounding soil is central to safe and economical design of the composite reinforced soil structure. In this note, a new interface model, denoted as “embedded bond-slip model”, is proposed to model the soil–nail interaction numerically in a simplified manner. Combining the key features of the embedded element technique and the conventional interface element method, the proposed plane–strain interface model has the advantages that no special considerations have to be given to the arrangement of the finite element mesh for the soil nails, and that possible tangential slippage along the interface can be modelled. The formulation also allows pore water flow across the soil nails to be incorporated into the analysis. The proposed model has been implemented into a finite element code and verified by simple element tests under different uni-direction loading conditions. Using the proposed interface model, back analyses of a field test involving a soil-nailed cut slope subjected to a rise in groundwater table have been conducted. This note presents the details of the embedded bond-slip model and the numerical results which demonstrate that the proposed model is capable of simulating soil–nail interaction conveniently and realistically. 相似文献
12.
用三维弹塑性有限元法对土钉支护进行了边开挖、边安装土钉和喷射混凝土面层的施工过程的数值模拟分析。通过一种强度折减技术探讨了土钉支护的稳定性。研究结果表明,施工过程中在不同的使用荷载作用下受力最大的土钉并不是一成不为的,因此,在土钉支护工程中不能随意地缩短某层土钉的长度。数值计算确定的潜在滑裂区和局部破坏区符合实际情况,认为钉体拔出是土钉支护最可能出现的内部失稳形式。 相似文献
13.
通常的有限元和有限差分分析方法都视土钉单元为只能承受单轴拉压的一维单元,不能承受弯矩。事实上大量土钉的剪切抗力对边坡稳定有着不可忽视的贡献。基于FLAC3D有限差分方法,提出了一种土钉单元剪切抗力的计算方法,并对某基坑土钉加固体系考虑和不考虑剪切抗力两种情况与实测值进行了对比分析,说明了土钉单元剪切抗力对边坡稳定的作用是不容忽视的,同时也说明提出的土钉单元的剪切抗力计算方法是合理的。 相似文献
14.
A study has been done for analysing soil nailed cuts with circular type wedge failure by friction circle method. Various parameters
such as nail length, nail diameter, nail inclination, wall inclination and angle of internal friction of soil have been considered
to determine the factor of safety of nailed open cuts. The study shows that for cohesionless soil nailed cut, factor of safety
increase with increase of parameters like angle of internal friction of soil, length of nail ( L) versus height of cut ( H) ratio, cohesion of soil and nail inclination (upto 15°) with horizontal. The study revealed that nails grouted with cement
perform better than driven nails. A case study further confirms the analytical findings.
Received 7 October 相似文献
15.
通过室内模型试验,利用可视化追踪技术,对锚杆拉拔过程中土体位移场和对土颗粒孔隙率、颗粒轨迹的追踪等细观观测,研究锚杆和土钉的协同作用机制。研究发现,锚杆拉拔过程中颗粒的剪涨作用使土颗粒向土钉移动,由于土钉的边界约束作用,使颗粒移动发生转向,最终在锚杆和土钉之间形成压密区;压密区的形成不但减小了土体的位移,也使土钉和锚杆的极限抗拔能力得到提高,从而解释了锚杆复合土钉支护在基坑支护中能够减小土体位移的原因,可为完善锚杆复合土钉支护设计理论提供参考。 相似文献
16.
In practice, field pullout testing of soil nails is a widely accepted method for the construction quality control and the performance assessment of soil nail walls. At the design stage, field pullout tests provide useful information about the design bond strength of the nail–soil interface, which is critical in the determination of minimum soil nail length. To obtain a reliable and representative estimate of the design bond strength, it is necessary to conduct a sufficient number of field pullout tests. This study demonstrates the use of the concepts of simple random sampling and stratified random sampling to assess the adequacy of the ultimate bond strength adopted for design based on the minimum recommended number of field pullout tests. 相似文献
17.
土钉支护的形成过程对其受力和变形有直接影响。结合土钉支护边开挖、边支护且开挖在前的施工特点,定义开挖影响面以反映土体开挖时边坡滑动趋势的变化,与开挖影响面相交处的土钉在土体开挖时轴力增加最多。开挖土压力表示以开挖影响面为边界的土块体产生的土压力,由相邻两步开挖土压力之差求得挖土引起的不平衡力。增加的土钉轴力在平衡此不平衡力的同时,维持着边坡稳定。据此,以开挖影响面及其土钉轴力增量为主要研究对象,提出了施工阶段土钉轴力的分析方法。该方法在求得土钉轴力最大值及其作用位置的同时,还给出了土钉轴力沿钉长方向的分布。应用此方法对法国CLOUTERRE项目1号墙足尺试验进行了计算,结果表明:计算与测试结果吻合良好。 相似文献
18.
Uncertainty in the predicted ultimate pullout strength of soil nails can be significant due to the complexity of nail–soil interactions, inherent variability in soil properties and the effects of nail installation. The paper first presents a statistical evaluation of the accuracy of ultimate bond strength of soil nails using the effective stress method (ESM) equation that has been adopted in Hong Kong. A total of 113 ultimate nail capacity data points from field pullout tests were collected from the literature and used to estimate the accuracy of the current ESM. Based on the available data, the current ESM default pullout model is found to be excessively conservative (on average) by at least a factor of three. The spread in prediction accuracy measured by the coefficient of variation (COV) of bias is in the range of 36–43 % after removing anomalous test data. Here, bias is the ratio of measured to predicted pullout load capacity. In addition, the accuracy of the current ESM equation for prediction of nail bond strength is shown to be dependent on the magnitude of predicted ultimate bond strength and magnitude of nominal vertical effective stress which is undesirable. The paper examines four candidate-modified bond strength equations with empirical coefficients that have been back-fitted to measured bond strengths to improve the overall accuracy of the equation and to reduce or remove the undesirable dependencies noted above. One equation with an empirically corrected stress-dependent term is judged to be the best candidate model based on the mean of bias values, spread (COV) of bias values, lack of dependencies and simplicity. Finally, the relative contributions of random variability in soil shear strength to measurement bias in bond strength (prediction accuracy) for each soil type are computed for the best bond strength model. Analysis of the contribution of soil shear strength to prediction accuracy showed that the combination of variability due to factors other than soil shear strength was greater than the variability in soil shear strength alone, where the latter is defined by the soil secant friction coefficient. 相似文献
19.
A series of large-scale model tests was conducted on compaction-grouted soil nails to study the influence of the degree of saturation on the soil response to compaction grouting and pull-out. The experimental results show that the initial degree of saturation of the soil strongly influences the grout injectability, thus the formed diameter of grout bulb. Subsequently, the diameter of the grout bulb alters the pull-out force, with larger grout bulbs generating higher pull-out forces and exhibiting greater hardening behaviour. Interestingly, the initial pull-out forces are the same for the same grouting pressure, regardless of the initial degree of saturation and the subsequently grout bulb. In addition, some of the main factors influencing the pressure grouting and pull-out of the soil nail, as the initial degree of saturation varies, are as follows. First, the variations in the soil pressure and density with the initial degree of saturation are similar to that of the volume of grout injected, and the compression of the soil induced by pressure grouting exhibits a similar evolution with the initial degree of saturation at different locations. Second, the initial degree of saturation of the soil sample plays a dominant role in the change in suction during pressure grouting and pull-out of soil nail. Third, the horizontal soil pressure derived from the pull-out of soil nail propagates closely in the soil sample of lower initial degree of saturation. The vertical soil pressure induced by the vertical soil dilation and squeezing effect varies in accidence with the initial degree of saturation and the grout bulb. 相似文献
20.
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
|
