共查询到19条相似文献,搜索用时 672 毫秒
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基于加筋黏性土挡墙的长期工作性能试验,综合分析加筋土挡墙在回填、加载过程及加载后各阶段对格栅应变、面板变形及墙后土压力的影响,以及格栅应变受模型槽尺寸效应的影响。试验结果表明:顶部加载完成后格栅应变随时间增加而逐渐增大,约6个月后增加趋势变缓并趋于稳定;随着距面板距离的增大,筋材应变先增大后减少,随着时间增长,黏性土中格栅应变沿全长发展并均有相应增长;受模型槽挡板与填料间的摩擦以及加载板与模型槽间存在间隙的影响,靠近两侧挡板筋材的应变值要比中间测点小些;相同位置处挡墙后最大水平土压力监测值约为朗肯主动土压力计算值的2倍;竖向土压力最大值仅为考虑顶部载荷和自重后应力总和的1/3左右,表明格栅加筋使挡墙填土中应力得以重新分布。 相似文献
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考虑蠕变性土工格栅加筋挡土墙应力与变形有限元分析 总被引:4,自引:1,他引:4
土工格栅加筋挡土墙在岩上加固工程中得到了广泛应用。采用粘弹塑性流变模型考虑地基和填士的流变性,采用作者所建议的绎验型粘弹性本构模型考虑土工格栅的蠕变性,对于土工格栅加筋挡土墒发展了非线性有限元数值分析方法,通过变动参数的对比计算与分析探讨了逐层填筑过程、加筋长度及间距布置方式等因素对土工格栅加筋挡土墙长期变形与应力特性的影响。计算与分析表明:填筑过程对面板侧向变形、格栅拉力与应变及地基中水平位移与竖向沉降具有较大的影响;加筋使墙后填土应力重新分布;面板位移、格栅拉力及应变在经历一段时间后趋于稳定状态。 相似文献
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差异沉降是造成路面破坏、影响行车速度和引发交通事故的主要因素之一,加筋土技术作为经济性良好的治理措施被广泛应用。为研究预应力加筋土垫层在差异沉降下的变形规律和沉降控制性能,设计了加筋土垫层和预应力加筋土垫层差异沉降对比模型试验。通过对比试验揭示了预应力加筋土垫层对差异沉降控制的有益效果。试验发现:①预应力加筋垫层可以有效地降低差异沉降。②预应力加筋垫层有利于调节软硬路基交界面附近的“断崖式”差异沉降。③预应力加筋垫层对能量的耗散和传递能力更好。④附加应力从垫层传递到路基顶部时发生应力叠加,在该处呈现增大突变趋势。本文研究成果可为预应力加筋土结构在差异沉降频发路段的工程应用和控制性能研究提供借鉴和依据。 相似文献
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针对加筋挡墙顶部受条形基础载荷作用时的工作性能开展试验研究,分析条形基础距挡墙面板距离对基础极限承载力、加筋挡墙变形特点、筋材应变和破坏模式的影响。试验结果表明:基础极限承载力随基础偏移距离 增加呈现先增大后减小的趋势,且在 为 ( 为挡墙高度)时达到最大值;条形基础加载至破坏前一级载荷时,基础沉降与挡墙高度比值均小于2%,面板水平位移与挡墙高度比值均小于1%,且当 小于0.6时,面板顶部水平位移明显大于中底部;各层筋材中应变最大值随 增加而逐渐向远离面板方向发展,且筋材最大应变由最初出现在顶层而转向中间层;顶部受条形基础载荷作用下加筋挡墙破坏以3种模式为主,即顶层面板挤出的浅层破坏、破坏面沿基础边缘发展并向深部推进和加筋挡墙整体破坏。 相似文献
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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
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为研究加筋土桥台结构在顶部条基动载作用下的动力响应问题,通过MTS伺服加载系统施加循环动载,开展室内加筋桥台挡墙动载破坏试验,对比分析3种格栅长度和3类格栅型式的加筋土挡墙沉降及面板水平位移、土压力、筋材应变等参数的分布规律,揭示加筋桥台挡墙的动力承载性能。试验结果表明:在循环动载下不同格栅长度及型式的加筋桥台挡墙破坏模式存在差异,M、A、B型格栅加筋长度 1.0H(H为挡墙高)的挡墙破坏模式均为冲切剪切破坏,A、B型格栅 0.7H和 0.4H的挡墙破坏模式为局部剪切破坏。加筋桥台挡墙面板侧移随筋材长度增加依次减小,A型格栅加筋土挡墙侧移系数总体上相比B型小。桥台挡墙因加筋格栅长度及型式不同导致动土压力衰减规律差异明显,当 1.0H时M型及A型筋材竖向动土压力衰减系数沿墙高呈抛物线函数模型,当 0.7H时,A型和B型筋材竖向动土压力衰减系数沿墙高皆呈指数函数模型。 相似文献
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《岩土力学》2017,(8):2234-2240
土工格栅广泛应用于各类加筋土结构工程实践,在这些实际的加筋土结构中,加筋土体一般处于平面应变状态。为了更详尽地描述平面应变状态下土工格栅加筋土的复合力学性状,加深对土工格栅加筋机制的认识,通过以砾石和具有不同横肋数量的土工格栅为研究对象,进行大型双轴压缩试验,探究了平面应变状态下土工格栅横肋对加筋土强度和变形特性的影响。试验结果表明:土工格栅显著提高了加筋土试样的最大轴向应力,最大轴向应力随土工格栅横肋数量的增加而增大;基于数字图像相关(DIC)技术,获得了同一围压下未加筋土和各加筋土试样土颗粒的位移和旋转情况,直观地展现了土工格栅的加筋效果;加筋土试样中土工格栅在双轴压缩荷载作用下的纵向拉伸应变分布规律呈现中部最大、朝格栅试样两端递减的规律;在相同轴向应变条件下,上层格栅的拉伸应变略大于下层格栅的拉伸应变;在相同轴向应力作用下,土工格栅的纵向拉伸应变随横肋数量的增加而减小。 相似文献
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加筋土桥台因其具有良好的复合体特性,被广泛应用于各项工程建设,研究它在实际工程条件下的工作性能对其设计和推广具有重要意义。加筋土桥台在服役过程中主要承受交通荷载作用,通过室内大比例缩尺模型的加速应力试验,研究交通荷载条件下加筋土桥台的工作性能,考虑加筋间距与筋材刚度的影响,综合分析了不同交通荷载等级和循环次数下桥台变形与筋材应变的变化规律。研究结果表明,加筋土桥台在交通荷载作用下整体变形随循环次数趋于收敛,其顶部沉降、面板水平位移与筋材应变均远小于规范给出的阈值;各变形值随加载时间呈阶梯状发展,不同条件下变形收敛趋势有所差异;增大筋材刚度和减小加筋层间距有利于控制桥台的变形,筋材刚度对变形的控制作用要优于加筋间距;交通荷载作用下面板水平应变与顶部竖向应变并不满足2倍关系,二者之间的定量关系有待进一步研究。 相似文献
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储油罐环形加筋防护墙是由填土、筋体、格栅返包式面板组成的一个环形整体复合结构,具有明显的空间特性及其与储油罐之间复杂的相互作用,相关研究理论明显滞后于工程应用。由于环形加筋防护墙无法忽略其空间特性的影响,通过Plaxis 3D三维有限元软件进行数值模拟,采用小应变土体硬化模型作为加筋土体本构模型,研究储油罐环形加筋防护墙墙体的变形特征及加筋材料的受力特征,探讨墙体高度、厚度、墙面坡度及土工格栅刚度、加筋间距等因素对墙体变形特征的影响。结果表明:防护墙墙面侧位移随着防护墙高度、厚度和墙面倾斜角度的减小而减小,但墙体厚度过小和加筋间距过大将导致防护墙倾覆趋势增大,过小的土工格栅刚度会导致墙侧位移过大,因此需严格控制以上设计参数;加筋防护墙墙体的修筑将加大储油罐边缘处地基沉降,储油罐内燃油的装载状态不影响加筋防护墙地基沉降情况,但油罐地基最大沉降差随着储油罐内装载燃油的增多而减小;根据格栅最大拉应力位置所推测的加筋防护墙破坏面经过墙趾曲线,墙后土压力受墙面坡度影响巨大,设计时应根据坡度选择合适的设计方法。 相似文献
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为探究荷载作用下软土地基直接拼接拓宽路堤受力和变形特征,利用自行设计制造的模型试验系统,通过改变软土地基差异沉降、土工格栅加铺层数对软土地基高速公路直接拼接路堤进行一系列模型试验,研究各种工况下旧路与新拓宽路堤土中应力变化。试验结果表明,拓宽路堤在荷载作用下新旧路各断面土中竖向应力随着荷载的增大而增大,受路堤填土边坡与下伏地基侧向约束条件的影响,荷载作用下土中竖向应力在填土路堤与地基内沿深度方向呈现先减小、后增大、再减小的分布特征;软土地基拓宽路堤差异沉降对新旧路结合部位土中竖向应力影响较大,土中竖向应力随着差异沉降增大而增大;旧路范围内土中竖向应力受差异沉降的影响不大;在拓宽路堤填土的顶部和底部各布设一层土工格栅加筋层时可明显减小路堤土中竖向应力和路堤沉降:相同荷载作用下对比无加筋路堤,铺设2层土工格栅加筋路堤的顶面沉降最大可以减少62%,土工格栅加筋对软土地基拓宽路堤沉降有较好的控制作用。 相似文献
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为研究加筋土挡墙在墙顶荷载作用下土体受力和变形形态,通过改变筋材层数、筋材长度和替换加筋材料等方式对加筋土挡墙进行了4种工况的模型试验。对4种工况下的加筋土墙体内竖向土压力、墙面水平位移、墙顶竖向位移和筋材应变等进行对比研究。研究表明,挡墙上部竖向土压力增长较快且各层竖向土压力最大值由加载点下部向墙面处移动;墙顶荷载超过130 kPa时,由于不均匀沉降,第5层筋材对应墙面处有向内收缩趋势,墙面水平位移最大值大约在上三分点位置;整个加载阶段,筋材总体应变值增幅不大且远小于筋材设计应变峰值;增加挡墙内筋材层数和增加筋材长度均可提升挡墙各方面性能,但增加筋材层数提高效果要优于增加筋材长度;使用废旧轮胎代替单向格栅进行加筋可有效提高挡墙整体性能,分散超载引起的附加应力,有效减小墙面水平位移和墙顶竖向位移。 相似文献
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Geogrid-reinforced railroad bed settlement due to cyclic load 总被引:1,自引:0,他引:1
Results of large-scale laboratory model tests conducted to determine the permanent settlement due to cyclic load of the railroad bed for a proposed high-speed train route extending from Seoul to Pusan in South Korea are reported. The possibility of using geogrid layers as reinforcement to reduce settlement of the subbase layer was investigated. Based on the present model test results, it appears that practically all permanent settlement due to cyclic load is completed after application of 105 cycles of load. The most beneficial effect of reinforcement is derived when one layer of geotextile and one layer of geogrid are placed at the interface of the subgrade soil and subbase course. 相似文献
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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
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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
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针对偏远山区素填土公路在落石冲击下易产生大面积凹陷破坏的问题,提出运用预应力加筋土路堤解决的方法。为了探究预应力加筋土路堤在落石冲击下的变形性能、力学响应规律和荷载传递机制,设计并实施了落石冲击作用下预应力加筋土路堤和素填土路堤对比模型试验。试验发现:预应力加筋土路堤中形成的凹坑尺寸明显小于素填土路堤,体现了预应力加筋土路堤良好的抗冲击变形性能;随着冲击次数的增加,路堤刚度逐渐增加,导致路堤内部冲击附加应力时程曲线逐渐由“抛物线型单峰”转变为“双峰”分布,且预应力加筋土路堤工况中“双峰”的出现早于素填土路堤;落石在预应力加筋土路堤中的冲击力持续作用时间小于其在素填土路堤中的持续作用时间,且分布更趋均匀,更有利于冲击荷载的扩散;随着冲击次数的增加,预应力加筋土路堤内部冲击力传递率呈先增加后减小的变化趋势,与筋材变形规律一致。结合Levenberg-Marquardt优化算法得到了关于凹坑尺寸和冲击次数的预测方法,可为预应力加筋土路堤在崩塌灾害多发地区的工程应用提供借鉴,为工程预警提供参考。 相似文献
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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
18.
A series of centrifuge model tests of geogrid-reinforced slopes with superstructure was conducted under differential settlement condition. The influence of reinforcement placement on the deformation and failure behavior of the slope and superstructure is investigated by considering different numbers of geogrid layers. The response of the slope and superstructure is analyzed based on a full-field displacement measurement via image analysis. The differential settlement induces distinguishable superstructure movement and slope deformation above the subsidence zone. The slope displacement, close to the vertical direction, appears only in a limited zone. An integrated analysis scheme of deformation and failure processes is adopted to reveal the failure mechanism of both the unreinforced and reinforced slopes: a certain level of deformation localization induced by differential settlement results in the local failure, and adversely, the local failure aggravates the deformation localization near it. The geogrid reinforcement mechanism is further clarified as the reduction on the deformation localization of the slope due to geogrid placement. The geogrid reinforcement effect can be comprehensively described with two respects: hooping effect and shielding effect, which illustrates the influence sphere and degree of geogrid reinforcement on restraining the slope deformation. The geogrid reinforcement is proven effective to improve the safety of the slope and superstructure.
相似文献19.
对于桩承式路堤作用效应的研究目前主要侧重于对静荷载作用下桩土应力比和土拱效应等,较少考虑动荷载的影响,而车辆运行产生的动应力会对路堤中的土拱产生一定的影响,进而影响桩承式路堤的整体性能。为了分析静、动荷载作用下桩承式加筋路堤的性能变化,采用可视化模型试验和颗粒流数值模拟相结合的方法,对桩承式路堤在静载和动载下的应力传递和变形性状进行研究,分析动载作用下填土高度、桩帽、桩距、加筋形式、荷载频率的影响。试验结果表明,在动载下无筋路堤的桩顶的应力减小,而桩间的应力和位移增大,并且变化的幅度均比加筋路堤大,加筋材料的设置有利于减小动载的影响效应,但不同加筋形式下桩承式路堤的工作性状有所不同,受动载影响程度的大小主要与土拱效应的强弱有关。设置双层加筋时,因加筋材料与周围砂土形成半刚性平台,土拱效应减弱,故受动载影响的程度最小,单层加筋时,格栅设于桩顶上方10 cm比格栅置于桩顶受动载影响的程度明显减小,颗粒流的模拟结果验证了以上结果,并且进一步得出随荷载频率的增加、填土高度与桩净距的减小,动载的影响效应增大的结论。 相似文献