共查询到18条相似文献,搜索用时 937 毫秒
1.
为研究坡顶加载条件下黏性土坡的承载特性和变形规律,进行了素土坡和土钉加固土坡的加载离心模型试验。测量了土坡的承载和变形过程。通过对比两种土坡的承载特性和变性规律,土钉的加固作用体现在:限制了土坡向坡面方向的位移,使土坡的承载能力得到了明显提高;在加固土坡内形成的土钉影响区域改善了加载底板边缘处的薄弱程度;增大了土坡中上部土体的竖向压缩变形,减小了剪切变形,增强了土坡的稳定性。土坡上部土钉的加固效果随着坡顶荷载的增大而越明显;土坡中下部土与土钉的相互作用越靠近坡面越强 相似文献
2.
水位下降是导致滑坡的重要原因之一,而土钉是加固土坡的有效手段。进行离心模型试验,再现了水位下降时土钉加固土坡的变形和破坏过程,测量了土坡的位移变化。试验结果表明,水位下降条件下土钉加固土坡的破坏模式以绕钉破坏为主,滑裂面从坡顶逐渐向下发展至坡面;土钉加固土坡的破坏过程与变形局部化过程表现出显著的耦合变化;土钉加固机制主要表现为通过土钉与坡体的相互作用,减小土坡的变形和变形局部化程度,从而提高土坡的稳定性。增加土钉长度使得滑裂面向坡内部移动,显著减小土坡的变形及变形局部化程度,从而提高了土坡安全性。 相似文献
3.
土钉墙变形规律及其相关性的实测研究 总被引:1,自引:0,他引:1
根据基坑坡顶水平位移与沉降的实测数据,讨论了土钉墙坡顶水平位移和沉降以及水平位移与沉降之比的规律,并利用统计方法对其相关性进行了分析,根据实际施工工况与实测数据对比,指出影响土钉墙变形的关键因素及控制土钉墙变形的有效措施。实测数据分析结果表明:基坑坡顶变形的空间效应明显;采用放坡或坡顶卸载可以有效地控制土钉墙的变形;在基坑上部设置预应力锚杆对基坑变形控制具有明显的效果;基坑坡顶的沉降随其水平位移呈非线性增加,沉降与水平位移比与其水平位移基本呈线性增加;土钉基坑发生破坏时的坡顶水平位移的警戒值为0.8 %~1.0 %H。 相似文献
4.
深基坑土钉和预应力锚杆复合支护方式的探讨 总被引:8,自引:1,他引:7
土钉与预应力锚杆的复合支护方式是当前基坑工程中经常采用的支护方式。结合工程实例,利用有限元软件PLAXIS,合理选择本构模型,对土钉和预应力锚杆复合支护方式和土钉墙两种支护方式的基坑边坡稳定系数和边坡变形进行了分析。分析结果表明,在土钉和预应力锚杆的复合支护方式中,预应力锚杆的位置比较重要,通常锚杆的位置越靠近坡顶,则锚杆发挥的作用越大,效果越理想;土钉和预应力锚杆的复合支护方式与土钉支护相比,位移有所减小,但合理选择锚杆的数量和预应力值对最终效果有一定影响;基坑边坡的局部放坡有利于控制基坑坑口的最大水平位移。 相似文献
5.
土工织物加筋技术在工程中得到了广泛的应用,取得了良好的加固效果。但对于土工织物加筋机制尚缺乏明确和统一地认识,加筋理论研究落后于工程实践。为此,进行了坡顶加载条件下土工织物加固黏性土坡和素土边坡的离心模型试验,记录和再现了素土边坡和加筋土坡在坡顶加载条件下的变形破坏过程。主要基于变形分析探讨了黏性土坡在土工织物简单加固条件下的加固效果和加筋机制。结果表明,土工织物加筋可以有效地提高黏性土坡的极限承载力,加筋带的存在改变了土体的位移场,扩大了坡顶加载的影响区域,加筋后滑裂面明显后移。加筋带对土体的局部作用和作用范围,随着土体变形的增大而增大和扩展 相似文献
6.
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
7.
黄土边坡开挖与支护效应的离心模拟试验研究 总被引:2,自引:0,他引:2
黄土边坡在开挖卸载过程中的稳定性分析及其防护在边坡工程中占有重要地位。采用西南交通大学土工离心机进行了1组非支护边坡和2组土钉支护边坡的离心模型试验,研究了开挖卸载过程中黄土边坡的变形特性、稳定性变化规律及土钉的加固效应。离心模型试验研究表明,土钉能够显著提高黄土边坡的稳定性。土钉支护的边坡土体,因土钉的锚固效应,边坡的变形范围更大,但变形量较小,最大变形量并不在坡面,而是发生在坡面下的锚固区域内,非支护黄土边坡的潜在滑移面产生于距坡顶约40 cm处,土钉支护后,黄土边坡基本不会发生破坏。对于抵抗边坡发生变形而言,不等长土钉支护的效果要优于等长土钉支护,研究成果为黄土边坡的开挖与防护提供了参考。 相似文献
8.
针对新型托换桩-土钉墙组合支护结构,假定沉降大于托换桩沉降范围内的坡顶建筑物荷载全部转移至托换桩,阐述托换桩-土钉墙组合支护的工作机制,对支护结构的变形协调机制和荷载传递路径进行探讨,提出支护结构侧向变形、坡顶沉降以及托换桩沉降及内力的计算方法。参数及对比分析表明,相对传统的复合土钉墙支护,新型托换桩-土钉墙组合支护结构可以很明显地减小支护结构的变形和内力,随坡顶荷载的增加托换支护法中支护结构的内力和变形的增速明显小于复合土钉墙的内力和变形增速,随微型桩水平间距的增加支护结构的变形和内力都增加,微型桩嵌固深度的增加对支护结构的内力和变形影响较小。 相似文献
9.
基坑开挖与土钉支护的数值模拟 总被引:2,自引:0,他引:2
运用FLAC程序对深基坑土钉墙支护设计进行了数值模拟,分析了边壁土体的变形大小和土钉应力分布,并与现场实测结果对比,得出基坑顶的水平位移值与实测值相差不大,并对差值进行了分析。在应力方面,改善了土体内应力集中的现象,从而制约了土体的变形。剪应力在支护结构和坡角处有集中现象,在坡角处较为严重。 相似文献
10.
土钉与复合土钉支护结构数值模拟对比分析 总被引:5,自引:1,他引:5
近几年来,复合土钉支护结构广泛应用于深基坑支护中。本文对一工程实例用SnEpFem土钉墙有限元数值分析软件,对土钉和预应力锚杆+土钉、微型桩+土钉、微型桩+预应力锚杆+土钉3种复合土钉支护结构的工作机制进行数值模拟,对比分析4种支护结构的坡面水平位移、坡顶沉降和沉降范围、坑底隆起、张拉区和塑性区范围等特点,发现:(1)与单纯土钉支护相比,复合土钉支护可以有效控制边坡变形,缩小边坡张拉区和塑性区范围,对提高边坡的稳定有利。(2)设置微型桩对坡面水平位移的控制比施加预应力的效果更好。(3)设置微型桩可以有效控制坡顶沉降,而施加预应力对坡顶沉降的影响很小。(4)4种支护结构对坑底隆起的影响趋势是一致的,量值变化很小。经过对比分析,在这一工程地质和水文地质条件下,最可靠的复合土钉支护结构是微型桩+预应力锚杆+土钉支护结构,该支护结构的变形、沉降以及张拉区和塑性区范围都是最小的,是最优的设计结构。 相似文献
11.
《Geomechanics and Geoengineering》2013,8(2):107-111
The stability of eccentrically loaded strip footings on slopes was investigated using the method of finite element analysis based on the theory of elasto-plasticity. The analysis was done for two different soils involving three levels of slope angle, six footing locations, and two levels of load eccentricity plus central vertical loading. The strip footing analysed was a 3-ft (0.9 m) wide reinforced concrete footing embedded to a depth of 3 ft (0.9 m). The analysis focused on footing settlement, plastic yielding of soil, and ultimate bearing capacity. The results of analysis show that the influence of load eccentricity on footing pressure vs. footing centre settlement is negligibly small. However, the progressive soil yielding and ultimate bearing capacity are greatly affected by load eccentricity. Furthermore, the effect of load eccentricity differs considerably with the load location relative to the footing centre and slope crest. The ultimate bearing capacity for the eccentric load located on the slope side is significantly greater than that for the load located on the other side of the footing centre. For a 2(H): 1(V) slope in silty clay, the effect of slope on footing stability decreases with increasing footing location from slope crest as would be expected, and diminishes when the footing is located from the crest at about 5-times the footing width. 相似文献
12.
Bearing Capacity of Embedded Strip Footings on Cohesionless Soil Under Vertical and Horizontal Loads
Hadjer Yahia-Cherif Abdelhak Mabrouki Djamel Benmeddour Mekki Mellas 《Geotechnical and Geological Engineering》2017,35(2):547-558
In the last decades a few attention was given to the evaluation of the bearing capacity of embedded footing under inclined loads on a frictional soil. This paper focuses on a numerical study using the finite-difference code Fast Lagrangian Analysis of Continua (FLAC), to evaluate the bearing capacity of embedded strip footing on a frictional soil. The soil is modeled by an elasto-plastic model with a Mohr–Coulomb yield criterion and associative flow rule; the effect of non-associativity of the soil on the bearing capacity is also investigated. The effect of the embedment is estimated though a depth factor, defined as a ratio of the bearing capacity of a strip footing at a depth D to that of a strip footing at the ground surface. The inclination effect is estimated by inclination factors, defined as the ratio of the limit vertical load for a footing under inclined loading to that of the vertically loaded footing. Both swipe and probe analyses were carried out to identify the vertical force–horizontal force (V–H) failure envelope. The results have been compared with those available in the literature. 相似文献
13.
Reliability analysis of bearing capacity of a strip footing at the crest of a simple slope with cohesive soil was carried out using the random finite element method (RFEM). Analyses showed that the coefficient of variation and the spatial correlation length of soil cohesion can have a large influence on footing bearing capacity, particularly for slopes with large height to footing width ratios. The paper demonstrates cases where a footing satisfies a deterministic design factor of safety of 3 but the probability of design failure is unacceptably high. Isotropic and anisotropic spatial variability of the soil strength was also considered. 相似文献
14.
建筑物或构筑物基础临近边坡置放的情况在实际工程中十分普遍,但目前对于临近边坡基础的地基承载力及破坏模式尚缺乏深入研究。采用不连续布局优化(DLO)极限分析法建立数值模型,分析边坡几何尺寸、土体参数和基础位置对临坡条形基础的极限承载力和边坡破坏模式的影响,并对国内外现行规范推荐的计算方法进行评价。结果表明:极限承载力随边坡高度和边坡倾斜角的增大而减小,当坡高超过临界高度后,极限承载力将不受其影响;极限承载力随土体黏聚力和内摩擦角的增大而提高,滑动面随黏聚力的增大而变浅,随内摩擦角的增大而变深;极限承载力随基础与坡肩相对距离的增大而提高,当基础置放位置超过某临界距离后极限承载力不受边坡影响。在土体强度高、坡角较大时,《建筑地基基础设计规范》规定的临坡基础最小置放距离偏于危险,设计时仍需考虑边坡对承载力的减损作用;在土体强度较低、坡角较小时,规范规定值偏于保守。美国AASHTO规范对边坡地基极限承载力的取值在砂土边坡时较为可靠,但其仅适用于坡面破坏模式的情况;饱和黏土边坡的承载力曲线有悖于理论解,对临界距离的规定同样存在低估。 相似文献
15.
This paper presents the laboratory test results of nailed soil slopes to study the behaviour of reinforced slopes under surcharge load. Tests were conducted on nailed soil slopes of three different slope angles (β = 30°, 45°and 60°) and nail inclinations (i = 0°, 15° and 30°). Each slope is reinforced with a number of hollow aluminium nails placed in three rows. The failure response, load-settlement, nail forces at the centre of nails and the distribution of nail forces along the length are examined during the tests. The numerical simulation of the model tests is performed by a 3-D finite element program. The numerical results are found in agreement to the corresponding experimental results. It is observed that the nails inclined at 0° to the horizontal give the maximum improvement in the load carrying capacity of the slopes followed closely by the 15° nail inclination. The maximum nail forces are observed in the topmost row of nails and decreases with the depth. The distribution of the nail forces along the nail are also found to be varying with respect to the failure surface of the slopes. 相似文献
16.
临坡地基已成为一种广泛的地基形式。针对临坡条形基础地基破坏模式的非对称性特点,首先引进双侧破坏模式的研究思路,重点考虑临坡地基基础两侧滑块大小和同一滑块几何形状的双重非对称性特征,构建了临坡条形基础地基非对称双侧破坏模式,为临坡地基承载力分析奠定了坚实基础;然后在此基础上,引进极限上限分析和优化理论,建立了临坡条形基础地基承载力分析的模型与方法,该方法不仅可考虑地基破坏模式,还可考虑基础与坡顶距离对临坡地基承载力的影响,而且还可较好地蜕化为平地地基承载力的分析;最后通过工程实例计算,并与现有相关分析方法进行对比分析,表明该方法的可行性与合理性以及普遍适用性。 相似文献
17.
以砂土地基的极限承载力为对象,讨论了古典理论解与室内模型实验值之间的差异,并结合试验中所观察到的现象对其原因进行了简要的分析,最后,利用有限元解析对各种极限承载力的计算方法进行了客观地评价.砂土材料强度具有明显的各向异性以及软化特性,并与周围压力大小以及密度相关.另外,砂土地基的破坏呈渐进性,砂土的粒径大小影响它的承载力以及变形破坏.结果表明,只有考虑砂土以上的各种特性的数值解析方法才能合理地得到砂土地基的极限承载力. 相似文献
18.
Bearing Capacity of Strip Footings Near Slopes 总被引:2,自引:1,他引:1
In the last decades a great attention was given by many authors to the evaluation of the static and seismic bearing capacity
of footings near slopes. In this paper a model has been developed based on the limit equilibrium method, considering a circular
surface propagates towards the slope until the sloping ground is reached. The bearing capacity is investigated considering
either the distance of the footing from the edge of the slope and/or the effect of the footing embedment. A validation of
the proposed model was made by a comparison with solutions taken from literature regarding the evaluation of the bearing capacity
for a footing adjacent to a slope and for an inclined load. The loading conditions consist in vertical and horizontal stress
on the footing and on the soil below the footing. Both the inertial and kinematic effects of the seismic loading have been
analyzed, and a simple equation has been derived for the evaluation of the seismic bearing capacity. The static and seismic
bearing capacity has been investigated as a function of the soil friction angle, of the seismic coefficient, of the sloping
ground. Finally, the influence of the distance of the footing from the edge of the slope was taken into consideration in the
evaluation of the bearing capacity, and a threshold distance at which the reduction of the bearing capacity due to the sloping
ground vanishes has been defined. 相似文献