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1.
Cement stabilization of soil is a useful method to improve the mechanical behaviors and engineering performance of soils in geotechnical design and construction projects involving weak or liquefiable soils. Among the factors affecting the strength of cement-stabilized soils, water content and water–cement ratio are important but less well understood because of controversial views. This paper presents a systematic laboratory study to investigate the effects of water content and water–cement ratio on the unconfined compressive strength, with good control of the packing density and void ratio of the tested specimens. The effects of void ratio and cement content are also investigated. The strength of the cement-stabilized sand continuously decreased with increasing water–cement ratio within the range of 0.5 to about 3. A general equation is suggested to evaluate the unconfined compressive strength of cement-stabilized soil. Finally, a new conceptual characterization chart is proposed with consideration of the effects of cement content, water content, and water–cement ratio. 相似文献
2.
The site characterization of unsaturated soils is well stablished based on laboratory tests, which are expensive and time-consuming. In-situ testing methods, such as the flat dilatometer test (DMT), are an alternative to the traditional approach of drilling, sampling, and laboratory testing. The literature on DMT interpretation is well established on saturated and well-behaved soils. Only few studies deal with DMT interpretation in unusual soils, and little is known about the influence of soil suction on this test. This paper presents and discusses the influence of soil suction on four DMT campaigns carried out in an unsaturated tropical soil site, also incorporating the soil suction influence on the DMT interpretation. Soil suction was estimated by the soil–water characteristic curve (SWCC) and water content profiles. The water content profiles range from 11.3 to 19.7% which corresponds to a suction range estimated by SWCCs mostly between 6 and 200 kPa. Soil suction significantly influenced DMT data up to 5 m depth at the studied site (the unsaturated active zone) increasing the intermediate DMT parameters. The average horizontal stress index (KD) was equal to about 1.7 and the average dilatometer modulus (ED) was about 4.7 MPa in the active zone and practically doubled their values due to in situ soil suction. The estimated peak friction angle (?) was 20–30% higher due to soil suction influence on DMT assuming the soil behaves as a sand like material. Soil suction must be considered to assess the behavior of the investigated soil by the DMT. The suction influence should be incorporated in the effective stress and this approach considerably improved the site characterization of the studied site. 相似文献
3.
基于微生物诱导碳酸钙沉淀作用(MICP)的土体改性技术近年来在岩土工程领域引起了人们的广泛关注。该技术在改善岩土材料的强度、刚度、抗液化、抗侵蚀及抗渗透性等性能的同时,还能维持土体良好的透气性和透水性,改善植物的生长环境。由于微生物矿化作用涉及一系列生物化学和离子化学反应,固化过程中的反应步骤较多,因此,MICP固化效果受许多因素的制约与影响。基于大量文献资料,系统总结了细菌种类、菌液浓度、温度、pH值、胶结液配比及土的性质等关键因素对微生物改善岩土材料性能的影响,讨论了这些影响因素的优化方式和未来的研究方向,主要得到了以下几点结论:菌种类型、菌液浓度、温度、pH、胶结液性质会从微观上影响碳酸钙的晶体类型、形貌和尺寸,进而在宏观层面影响岩土体的胶结效果;菌液浓度尽可能高、温度在20~40℃间、pH值在7.0~9.5左右、胶结液浓度在1 mol/L以内的因素条件对微生物加固岩土体具有较好的效果。上述范围内的低温、较高的pH值、低浓度胶结液有助于提高土体的抗渗性,而高温、较低的pH值以及中高浓度胶结液有助于提高土体的强度;MICP加固土体的有效粒径范围为10~1 000 ?m,相对密度越大、级配越好则加固效果越好。分步灌浆法、多浓度相灌注法及电渗灌浆法有助于提高土体固化均匀性,0.042 (mol/L)/h以下的注浆速度有利于提高胶结液利用率,砂土试样的灌浆压力一般在10~30 kPa之间,粉黏土试样的灌浆压力不宜超过110 kPa,过高的灌浆压力会破坏土体结构,降低固化效果。 相似文献
4.
Salt-rich soft soils have not only general characteristics of common soft soils, but also contain high contents of Mg 2+, Cl ?, and SO 42?, which have negative effects on deep mixing method using cement to treat soft soils. Laboratory and field tests were conducted to investigate the effects of changing cement incorporating ratio, water content, cement mixing ratio, and contents of Mg 2+, Cl ?, and SO 42? on the unconfined compressive strength of the salt-rich soil–cement. The microstructure of soil–cement and the mechanism for the strength change of salt-rich soil–cement were investigated using X-ray diffraction, scanning electronic microscopy (SEM), and backscattered diffraction technology. It was found that an increase of cement incorporating ratio enhanced the strength of soil–cement but reduced its strength when water is added. Different amounts of Mg 2+, Cl ?, and SO 42? not only caused the difference in the microstructures of salt-rich soil–cement but also influenced the soil–cement strength. 相似文献
5.
天然软土尤其三角洲地区的淤泥或淤泥质黏土常含砂,以含细砂或粉细砂为主,系统研究水泥土强度与含砂量的关系,为水泥土性能改良、强度设计及水泥土搅拌法施工提供直接依据。选取珠江三角洲两处典型的淤泥、淤泥质黏土,按天然含水率配制试验用土,掺加不同含量的细砂制成含砂水泥土试件,养护到不同龄期,对其进行无侧限抗压强度试验,得到了水泥土强度与含砂量及其他关联影响因素关系的变化规律。主要结论是:细砂颗粒在水泥土中起到了细骨料的作用,有利于提高水泥土强度;考虑水泥土的含砂量、水土质量比、水泥掺入比和实际水灰比等因素,得到了含砂淤泥水泥土强度估算公式;在不含砂淤泥水泥土中掺入2 %干细砂时其强度约提高25 %,掺入15 %~25 %干细砂则可提高40 %~60 %。 相似文献
6.
使用低成本高硅铝矿物掺合料可在提升水泥土工程性能的同时降低水泥用量。通过开展系列抗压强度试验研究了水泥偏高岭土掺比、水/水泥偏高岭土比、凝胶总掺量和养护龄期对水泥复合偏高岭土稳定粉砂土抗压强度的影响规律,归纳了水泥复合偏高岭土稳定粉砂土的强度经验公式。结果表明:将水泥和偏高岭土按质量比5:1混合用于粉砂土稳定时可获得最佳强度提升,节约1/6水泥消耗,且该掺比关系不因凝胶总掺量变化而改变;水泥复合偏高岭土稳定粉砂土抗压强度随水/水泥偏高岭土比增加近似线性降低,随凝胶总掺量增加线性提升,随龄期发展而提高,其28天强度增加趋势仍未趋缓;总结归纳了四个关于强度影响因素的经验预测公式。该研究成果可为水泥偏高岭土用于复合稳定工程软弱土提供理论参考。 相似文献
7.
在厦门海沧大道软基加固过程中,运用扁铲侧胀试验来获取软土力学指标,并与其他常用原位试验方法进行了比较,结果表明扁铲试验(DMT)具有操作简单、对土体扰动小、测试参数多、准确快捷等特点。通过对两种不同处理方法加固后的软基进行扁铲试验,发现袋装砂井超载预压法明显提高了软土的力学性能,其加固效果随深度增加而减弱,而从较长时间来看,粉喷桩对该地区软土本身力学性质没有太大改变。 相似文献
8.
对软土中掺入不同量的水泥,以不同的水灰比(水和水泥的质量比)制成的水泥土试块在不同的养护条件下、不同的龄期对其无侧限抗压强度进行对比试验。分别讨论了掺入比(水泥和湿土的质量比)、水灰比及养护条件对其无侧限抗压强度的影响。 相似文献
9.
针对含硫酸盐介质的环境水服役条件,通过室内模拟试验手段,研究了不同配合比参数和不同条件下水泥土的无侧限强度、弹性模量以及应力-应变的变化规律,分析了硫酸盐侵蚀环境下水泥土力学性能的劣化机理。结果表明,配合比参数以及环境条件对水泥土的无侧限抗压强度、弹性模量、应力-应变曲线有显著的影响;硫酸盐溶液中的水、硫酸根离子与水泥土之间的复杂物理、化学作用,影响水泥土内部微细观结构,从而对水泥土的力学性能存在显著劣化作用;且这种侵蚀作用在90d龄期内最为显著。 相似文献
10.
为提高水泥土强度,通过对影响深层搅拌桩水泥土强度(水泥掺入比、水泥土养护龄期、水泥强度等级、土体自身物理力学性质,外掺剂以及施工工艺等)诸因素进行探讨,对各参数的取值进行优化。当水泥土的掺入比在7%~15%,养护龄期90d,加入外掺剂,且施工采用复搅法和喷搅法时,水泥土强度可以得到不同程度的提高。 相似文献
11.
Nowadays, improving the strength and deformation properties of soft soils by deep soil mixing is a commonly used technique. There is also an increasing interest in the use of this technique for foundation/structural elements and excavation retaining walls applications. The compressive strength and elastic modulus of the soil mix material are key parameters in the design of these structures. However, there is very limited information available on the impact of exposure to air drying (in the case of retaining wall) on the strength and stiffness of cement stabilized soils. The aim of this study is to investigate the effects of different curing conditions (immersion in water, cycles of wetting and drying, continuous air drying) on the mechanical properties of soils treated with cement in the laboratory. Free–free resonance tests and unconfined compression tests were performed on specimens of silt and sand treated with blastfurnace slag cement. Strength increases more rapidly than stiffness between 7 and 30 days. The strength of stabilized soils submitted to cyclic wetting and drying before the cement hydration process is complete continues to increase. As long as the periods of drying do not induce microcracks, the stiffness of the treated soil specimens also increases with time. However, the stiffness is lower than for the specimens cured in water indicating a disruptive effect of the imposed wetting–drying cycles on stiffness. Continuous exposure to air drying inhibits strength development due to insufficient water for hydration. Significant stiffness decreases were observed on specimens of stabilized silt and are attributed to microcracking. 相似文献
12.
针对广梧高速公路沿线的砾状煤系土不能满足路基填料要求的问题,采用室内试验的方法,对其提出了分别掺加生石灰和水泥两种改良方案并进行改良试验对比研究。研究结果表明:经水泥改良后的砾状煤系土的压实性能、承载比和水稳性等方面效果明显优于经石灰改良的;经水泥改良后的抗剪性能、无侧限抗压强度和抗变形能力均有较大程度的提高;在影响砾状煤系土强度的因素中,水泥掺入比的影响最显著,其次是龄期和含水率,并根据无侧限抗压强度试验结果提出了多因素影响拟合公式。砾状煤系土掺加约3%水泥改良后直接作为路基填料可满足要求,为煤系土地区路基处理提供借鉴依据。 相似文献
13.
水泥搅拌桩加固有机质含量较高和呈酸性的土层时,我国规范建议采用现场试验的方法。通过深层搅拌法加固太湖应天河工程富含有机质的淤泥质酸性土地基的多组现场水泥土强度试验,分析了淤泥质酸性土中影响水泥土强度的各种因素。试验和工程实践表明,使用高标号水泥(525#)并掺入适量的外加剂可大幅提高酸性淤泥水泥土的强度, 复合地基承载力可达120 kPa以上,水泥搅拌桩可以加固淤泥质酸性土地基。 相似文献
14.
为揭示尺寸效应和加载速率效应对冻结改良土力学特性的影响规律,以冻结水泥改良土为研究对象,开展了不同尺寸与加载速率条件下的单轴压缩试验,通过分析试验数据,讨论了高径比和加载速率对试样强度与变形特性的影响。研究结果表明,高径比影响试样的应力-应变曲线类型及峰值后的变形特性。高径比增加,应力-应变曲线出现明显弹性屈服点,峰后脆性增强,试样破坏形式由劈裂破坏变为单一剪切破坏。试样的抗压强度、切线模量、起始屈服模量、破坏应变随高径比变化均可用抛物线进行拟合,综合考虑,推荐试验宜采用高径比为1.62~2.02的试件。在试验设定的温度和加载速率条件下冻结水泥土的单轴压缩应力-应变关系均为应变软化型。与冻土类似,冻结水泥土的抗压强度与起始屈服强度同样随温度的降低和加载速率的增加而增大。不同温度下冻结水泥土抗压强度与加载速率的关系可用幂函数表示。温度越低,起始屈服强度受加载速率影响越大。温度和加载速率对冻结水泥土切线模量也有较大影响,不同加载速率条件下切线模量与温度呈线性关系。冻结水泥土的破坏应变随温度的降低和加载速率的增加而增大,在1.94%~6.94%之间变化,不同加载速率条件下破坏应变与温度呈幂函数关系。 相似文献
15.
为了在北方寒区推广和应用水泥固化土建造保暖性房屋和设施农业,采用内蒙古黄河灌区周边典型的粉质土,利用普通硅酸盐水泥固化土体,配制水泥固化土,采用静力机械压实法和人工分层击实法分别制作了Φ50mm×H50mm和Φ39.1mm×H80mm两种不同规格的试件,并进行了无侧限抗压强度室内试验,研究了不同水泥掺入比、不同养护龄期、不同规格及成型方法对水泥固化土无侧限抗压强度的影响,得出了不同试验条件下水泥固化土的强度变化规律.试验结果表明:强度均随水泥掺入比及龄期的增大而增大,三者之间较好地满足空间平面模型,偏回归分析表明,水泥掺入比较龄期对强度的影响贡献更大,两种规格试件的强度之间较好地满足对数关系;不同规格及成型方法的试件对水泥固化土强度的影响规律不同,Φ39.1mm×H80mm试件存在一个临界水泥掺入比与临界养护龄期,当超过这个值时,其强度增长率减小. 相似文献
16.
In nature, soils are often composed of varying amounts of clay, silt and sand. Variation of the percentage of these compositions can affect the final strength of the soils when stabilised with cement. In this study, focus was placed on clayey soils with different gradation of sand impurities up to 40% in mass. An extensive study of such clayey soils treated with cement was investigated. For the results, it is noted that water:cement ratio was a major influence of strength development of cement-treated clayey soils. In contrast, the soil:cement ratio was found to have minor effects on the strength development. The presence of sand impurities has a significant reduction on the strength development of the cement-treated clayey soil mixture due to more free water available for hydration. The use of free-water:cement ratio is adopted which was shown to be capable of adjusting for such change in amount of free water and water holding capacity of the clay which is determined with Atterberg’s liquid limit tests. The effects of gradation (fine, coarse and well-graded) of the sand impurities were found to affect strength development minimally, owing to similarities in their liquid limits when mixed with clay. Ordinary Portland cement (OPC)-treated clayey soils produced a more rapid gain in strength but lower final strength at 28 days of curing as compared with Portland blast furnace cement (PBFC). This is found to be persistent for different gradation of sand impurities. A linear correlation can be established based on the log of the unconfined compressive strengths developed at different curing age, with slopes of these linear trends found to be similar for PBFC and OPC-treated clayey soil specimens. Finally, a strength prediction model comprising of these findings is developed. The parameters adopted in this model coincide with values proposed by past studies, thereby validating the robustness of the model. The practical benefits from this study offer a quality control scheme to forecast long-term performance of cement-treated clayey soils as well as optimise cement dosage in cement stabilisation to produce a more cost-effective and less environmental-invasive usage of the technology in geotechnical applications. 相似文献
17.
在回顾分析国内外利用扁铲侧胀试验评价地基土性参数基础上,介绍了应用扁铲侧胀试验(DMT)和其它试验手段进行高速公路软土地基综合分析评价所取得的一些成果。根据扁铲侧胀试验结果估算的不排水抗剪强度与十字板试验结果基本一致,并能够反映土的强度随深度增长的规律,也分析了造成扁铲侧胀试验结果与室内试验结果之间差异的因素,研究结果可为扁铲侧胀试验在我国岩土工程领域的应用提供参考。 相似文献
18.
通过三轴试验系统研究了新型土工材料--轻量砂的变形及强度特性。结果表明,不同的配比、龄期使轻量砂具有不同的原生结构强度,围压使不同原生结构强度的土样处于剪胀或剪缩状态,导致发生应变硬化、应变软化以及相应状态下孔压的3种对应形态变化。变形模量随EPS(发泡聚苯乙烯)球粒掺入比的增大而线性减小,随水泥掺入比、龄期增大而线性增大,相同配比的土样变形模量与围压关系不大;三轴抗压强度随EPS球粒掺入比增大而呈负指数关系减小,随水泥掺入比、龄期、围压增大而线性增大,存在水泥掺入比阀值;土骨架转换效应对于土样强度的影响很大,造成了土体单轴、三轴抗压强度分带,高水泥掺入比能够大大弱化EPS颗粒的土骨架效应。结合前人成果,系统地研究了轻量砂密度、无侧限抗压强度的影响因素,引入材料学中比强的概念,提出了单价比强图结合配方公式的方法,对轻量土砂进行配方优化。分析了轻量土砂应力-应变关系转型问题,提出采用无侧限抗压强度来表征不同配比、龄期轻量土砂的原生结构强度。通过试验与数理统计,建立临界围压与原生结构强度的关系,为数值模拟计算与建立本构模型奠定了基础。 相似文献
19.
通过无侧限抗压强度试验对比分析了有机质含量、水泥和石膏掺量对水泥固化土和XGL2005固化土强度形成规律的影响。分析结果表明,XGL2005固化土的强度均不同程度地高于水泥固化土的强度,而且强度增长也快于水泥固化土。结合抗压强度试验和扫描电镜试验分析了固化土微观结构变化和强度发展之间的对应关系。 相似文献
20.
红粘土是亚热带气候条件下形成的一种特殊土质。含有红粘土的地基多具有上硬下软的特点,下部红粘土为天然地基软弱下卧层。采用深层搅拌法处理,可充分发挥上部硬塑红粘土的作用,形成复合地基。通过试验得到了水泥红粘土的基本力学参数。在对试验结果进行回归分析后,给出了水泥土强度的影响因素及其与强度的关系,以及不同水泥掺量、龄期水泥土之间的强度推算公式。 相似文献
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