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对塑料排水板堆载预压法作用下的软土地基,采用竖向平均固结度计算公式对分级加载的软土地基的不同时刻的固结度进行推算和预测,并利用实测数据对其检验对比,分析地基土的固结程度,预测地基土达到稳定要求的时间。 相似文献
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塑料排水板在海堤、公路、码头、水闸等软基加固工程中应用较广,塑料排水板处理软地基,是用塑料排水板将地基中的水排除,以增加作用于土颗粒的有效应力来加速地基固结沉降,达到提高强度的目的。在九江市日元贷款城市防洪工程八里湖大堤软基处理中成功应用了塑料排水板施工技术,结合该工程实例。介绍了塑料排水板施工工艺。 相似文献
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青岛前湾港地基的天然强度低 ,在外荷作用下承载力不高 ,导致地基变形较大 ,且变形稳定历时过长 ,因此必须对地基进行处理以满足设计要求。在大量的现场试验、监测结果的基础上 ,通过软土地基变形机理的分析研究 ,提出了地基处理的方案———塑料排水板法。根据软土层的物理力学指标 ,对塑料排水板的长度、间距、排列方式以及施工时间进行了设计计算。推算了地基土所能达到的固结度 ,并确定了最佳方案 相似文献
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采用大型土工离心机对某工程近海软土地基上堤坝施工期及运行期进行了模拟。试验中采用停机加载法模拟分级施工加载过程, 原型中采用塑料排水板固结法处理软土地基, 模型中则根据固结过程相似的原理, 换算成等效圆截面排水体, 在模型制作中采用等效透水滤芯进行模拟。根据激光位移传感器和孔隙水压力传感器数据可以得出相应原型软土地基的沉降特性和孔隙水压力变化情况。根据试验得到的沉降曲线, 采用"经验双曲线法"推算出了地基最终沉降, 然后得出按沉降推算的分层地基平均固结度随时间的变化。对比试验模拟得到的软土地基固结度和理论计算结果, 二者基本接近, 表明塑料排水板模拟方法用于离心模型试验是可行的。 相似文献
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土工织物与塑料排水板联合处理软基的效果分析 总被引:7,自引:0,他引:7
基于平面应变条件下的Biot固结理论,采用非线性有限元方法对土工织物加筋与塑料板排水联合使用处理软土路基的效果和机制进行了探讨。对比计算表明:在相同固结时间内加设排水板后路堤的竖向沉降大于无排水板情况下的相应值,路堤坡趾处的隆起变小,路堤的侧向位移也变小。塑料排水板极大地缩短了孔压的消散时间,加快了软土的固结进程,使软土地基的承载力得到较快的提高,从而提高了路堤的稳定性。加设排水板后筋材所分担的抗拉力也比无排水板情况下的抗拉力低。为了更好地发挥土工织物的加固效果,土工织物应尽量布置在高应力区域。加设排水板可以缩短路堤各固结阶段的静置时间而达到优化设计。 相似文献
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塑料排水板&强夯法在软土地基处理中应用研究 总被引:1,自引:0,他引:1
塑料排水板&强夯法是近年来发展起来的一种新的地基处理方法,该方法集塑料排水板的排水通道作用与强夯的动力固结作用于一体,在大幅度提高软土地基渗透能力的同时,使软土发生快速的动-静排水固结,从而提高地基承载力,减小地基沉降量。同时由于软土地基排水通道的形成和渗透能力的改善,显著提高了强夯地基处理的深度。本文通过某工程地基处理中塑料排水板&强夯法在两个试验区域的实践研究,说明塑料排水板&强夯法在软土地基处理中具有很好的适用性,是适应条件宽和应用前景广的地基处理技术。 相似文献
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长江漫滩相软土结构性特征及其工程效应分析 总被引:1,自引:0,他引:1
采用自由活塞薄壁取土器从地表至深度30 m取得不扰动原状土样,通过室内的固结压缩试验,并结合现场CPTU原位测试,利用重塑土的压缩与强度特性作为描述天然沉积土相应特性的基准框架,探讨了长江漫滩相天然沉积软土的物理力学性质。结果表明,长江漫滩相天然沉积软土具有高位结构性,固结系数Cv在土体屈服后急剧降低,屈服前后有明显的分段特征。同时指出,在静荷载水平相对较低的低路堤结构下,软弱土层沉积过程中形成的固结屈服压力和结构强度对其工程特性的影响相对更加显著。减小对天然沉积土的施工扰动作用、充分利用土结构力学效应、尽可能使地基工作于力学性质良好的屈服前阶段,在实际工程应用中具有重要的现实意义。 相似文献
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针对场地内夹杂岸堤、塘埂和人行道路网的深厚海相软土地基处理,提出塑料排水板和袋装砂井联合堆载预压加固方法,并通过现场试验研究该类地基在路堤填筑及堆载预压过程中的地表及深层沉降特性、超孔隙水压力消散机制和地基水平位移规律等工作性状。结果表明,采用该方法处理深厚海相软土地基具有良好的加固效果,地基沉降大部分在填筑期和预压期间发生,有效降低了场地的工后沉降和施工工期,可为沿海深厚复杂海相软土地基加固处理提供参考;塑料排水板和袋装砂井联合堆载预压处理地基的沉降-时间曲线呈多级式发展,袋装砂井处理部位的沉降量小于塑料排水板处;软基上部土体的排水效果明显优于中、下部土体,排水板处理区域的超孔隙水压力大于砂井处理区域;软基顶部土体向堆载区域移动,地表3 m以下的软土层被挤向堆载处理区域外。 相似文献
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《城镇污水处理厂污泥处理处置技术规范》[1]执行前,市政污泥往往直接倾倒于填埋场形成污泥库,导致垃圾设计库容显著降低。为恢复填埋场库容,许多填埋场面临污泥库的原位加固处理。通过2组模型试验,探讨真空预压处理污泥的可行性。试验结果表明,真空预压后污泥含水率显著降低,强度提高至2~4 kPa;污泥排水固结系数随预压过程发展表现出非线性;排水板周围污泥含水率和渗透系数降低明显,阻碍离排水板较远处污泥排水固结,因此减少排水板间距可显著提高污泥处理效果;真空预压过程中污泥中孔压变化规律与常规淤泥质土有明显区别,特别是远离排水板的位置孔压消散幅度小,表明污泥中孔压消散规律不符合传统的太沙基固结理论;污泥真空预压过程中,间歇式通正气压会在处理初期阶段加快排水速率,但整体改善作用不明显;真空预压可作为污泥减量化的一种途径,如要满足后续堆载垃圾的要求,还需配合其他原位处理方法进一步提高强度。 相似文献
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Amer A. Al-Rawas Yahia E-A. Mohamedzein Abdulaziz S. Al-Shabibi Salem Al-Katheiri 《Geotechnical and Geological Engineering》2006,24(5):1365-1383
Absrtract This paper investigates the potential use of sand–attapulgite (palygorskite) mixtures as a landfill liner. The sand and attapulgite
clay used in this study were brought from Wahiba (eastern Oman) and Al-Shuwamiyah (southern Oman), respectively. Initially
the basic properties of the sand and clay were determined. Then the attapulgite clay was added to the sand at 5, 10, 20 and
30% by dry weight of the sand. The sand–attapulgite clay mixtures were subjected to mineralogical, chemical, microfabric and
geotechnical analyses. The X-ray diffraction (XRD) qualitative analysis showed that attapulgite is the major clay mineral.
The chemical compounds, exchangeable cations and cation exchange capacity (CEC) for the␣samples were determined. The CEC for
the sand–clay mixtures is low but increases with the increase in clay content. The scanning electron microscope (SEM) examination
showed that the addition of clay developed coating between and around the sand grains which results in filling the voids and
reducing the hydraulic conductivity of the sand–clay mixtures. The hydraulic conductivity values for the pure clay and sand
+ 30% clay mixture prepared at 2% above optimum water content are slightly higher than hydraulic conductivity requirements
for landfill liners but can be acceptable. The geotechnical study which included grain size distribution, Atterberg limits,
specific gravity, compaction, hydraulic conductivity and shear strength tests showed that the sand+30% clay mixture prepared
at 2% above optimum water content can be considered to satisfy the requirements for landfill liners. For all sand–clay mixtures
no swelling was recorded and the addition of clay to the sand improved the shear strength. 相似文献
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It has been widely accepted that reinforcement made of polyethylene and polypropylene is susceptible to creep and soil’s hydraulic conductivity varies with its void ratio. However, unfortunately there is no available sensitivity analysis on time-dependent embankment behaviour taking either reinforcement viscosity or time varying hydraulic conductivity of subsoil into consideration. The influence of geosynthetic reinforcement viscosity and decreasing hydraulic conductivity with consolidation on the time-dependent performance of embankments with floating columns is investigated using a fully 3D coupled model. For an embankment at the working height corresponding to a post-consolidation polypropylene geotextile strain of about 5%, it is shown that the assumption of constant hydraulic conductivity and the failure to consider the viscous behaviour of geosynthetic reinforcement can underestimate time-dependent embankment deformations (including differential crest settlement and horizontal toe movement). The effects of factors including the foundation soil, reinforcement stiffness, column stiffness, column spacing, column type (floating and fully penetrating), and construction rate, on the time-dependent behaviour of column supported embankments are explored. 相似文献
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Yahia E.-A. Mohamedzein Amer A. Al-Rawas Mohammed Y. Al-Aghbari Ahmed Qatan Abdul-Hamid Al-Rawas 《Engineering Geology》2005,80(3-4):271-281
The possibility of using crushed shales as landfill liners is investigated in this study. Two types of shales were studied by performing the following laboratory tests: hydraulic conductivity, compaction, swelling, consolidation, X-ray diffraction (XRD), scanning electron microscope (SEM) and chemical analysis. For both compacted shales, the hydraulic conductivity was in order of 10− 7 cm/s or less which satisfies the specifications for landfill liners. The results of XRD and SEM support the low values of the hydraulic conductivity. Because of the dominant presence of low-activity kaolinite, there was no significant change in the hydraulic conductivity when the compacted shales are exposed to calcium chloride solution. The compressibility of the compacted clay was low and no serious post-construction settlement is expected. The shear strength of the compacted shales was within the usual expected range for earthen liners and, therefore, should pose no challenges with respect to shear strength. The crushed shales also satisfy the other criteria related to Atterberg limits and grain size. 相似文献
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In-situ testing of Singapore marine clay at Changi 总被引:2,自引:0,他引:2
The Changi East Reclamation Project in the Republic of Singapore comprises of the ground improvement of marine clay with the installation of prefabricated vertical drains and subsequent surcharge placement. Prior to the commencement of land reclamation works, a series of in-situ tests were conducted in marine conditions with the use of various in-situ testing equipment. The In-Situ Testing Site was located in the Northern area of the project where the thickest compressible marine clay layers existed. The in-situ tests carried out were with the field vane, piezocone, flat dilatometer, self-boring pressuremeter and BAT permeameter. In-situ tests were conducted to determine the undrained shear strength and overconsolidation ratio of the marine clay. In-situ dissipation tests provide a means of evaluating the in-situ coefficient of horizontal consolidation and horizontal hydraulic conductivity of soft soil and were used to estimate these properties of Singapore marine clay at Changi. 相似文献
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基于一维和三维固结挤土桩沉降时效计算分析 总被引:1,自引:0,他引:1
饱和软黏土地基中的挤土桩,施工引起的桩侧土体超孔隙水压力消散和竖向荷载引起的桩底土体固结是导致其沉降的主要因素。基于三维固结理论,研究了桩侧地基土再固结沉降的变化规律,并从桩-土相互作用的原理出发,结合边界条件,推导出了在桩侧地基土再固结沉降的作用下挤土桩沉降的计算公式。运用太沙基一维固结理论并采用分层总和法计算竖向荷载作用下桩底土体的沉降。提出了饱和软土中挤土桩沉降时效的计算方法。并对工程实例进行了计算分析,其结果符合工程实际沉降规律。 相似文献
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In situ dissipation tests provide a means of evaluating the in situ coefficient of horizontal consolidation and horizontal
hydraulic conductivity of soft clays. Dissipation tests by means of piezocone (CPTU), dilatometer (DMT), self-boring pressuremeter
(SBPT) and BAT permeameter (BAT) were utilized in the characterization of the coefficient of horizontal consolidation and
horizontal hydraulic conductivity of Singapore marine clay at Changi in a land reclamation project. Dissipation tests were
carried out prior to reclamation as well as after ground improvement with vertical drains to compare the changes in the coefficient
of horizontal consolidation and horizontal hydraulic conductivity prior to and after ground improvement. Tests were carried
out in a vertical drain area as well as in an adjacent untreated control area after 23 months of surcharge loading, for comparison
purposes. The purpose of this research is to determine the horizontal consolidation parameters of Singapore marine clay prior
to reclamation as well as after 23 months of surcharge loading with and without vertical drains by means of in situ dissipation
tests. 相似文献
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防波堤土工织物加筋地基离心模型试验及数值模拟 总被引:7,自引:2,他引:5
以黄骅港北防波堤工程为依托,对土工织物加筋软粘土地基及斜坡式防波堤体系的固结过程进行了离心模型试验和有限元数值模拟,通过分析地基土体固结过程中防波堤-加筋垫层-基体系的位移场和应力场的发展及织物拉应力分布和发展,验证离心试验及数值模拟方法的合理性,并得出以下几点主要结论:(1)土工织物加筋垫层的作用机理为其抗拉性限制自身横向变形,通过与附近土体的摩擦作用限制其侧向变形;(2)加筋减小防波堤-垫层-地基体系的高应力水平区,避免堤身与地基高应力水平区域的连通,增强系统稳定性;(3)在离心试验采用的分层地基的条件下,加筋减小了浅层软基和堤身的侧向位移量,对系统总位移有抑制作用;(4)试验中织物替代材料的极限拉伸强度发挥程度较低,其与砂垫层间摩擦强度的发挥水平约为23.8%。 相似文献
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针对工程泥浆回填废弃矿坑处置的安全问题,开展底部真空和上部堆载预压处理废弃工程泥浆的模型试验,探讨该技术在废弃矿坑回填处置工程应用的可行性。试验结果表明,底部真空和上部堆载预压使得泥浆含水率显著降低及泥土的强度明显提高,处理一个月后,含水率从初始450%降低至95%~105%,体积减量达到73.4%;不排水强度由初始为0的状态提高至9.8~13.4 kPa。在初始的静置阶段,泥浆颗粒沉积存在重力分异现象,粗颗粒在底部沉积有助于缓解真空预压过程中淤堵问题。底部真空作用下,泥浆中孔隙水渗流方向并非完全一维向下,在径向存在水力梯度。处理后泥土压缩性与软土相近,渗透性优于软土。基于试验结果和大应变固结理论,考虑泥浆的自重固结以及压缩性与渗透性的非线性变化,利用有限差分法分析了单次回填厚度对泥浆层固结时间和减量效果的影响,提出了现场实施的工艺参数建议。 相似文献