石棉纤维粉煤灰水泥加固软土试验研究

为研究石棉纤维加固软土的效果和机理,改善水泥土的脆性破坏特点,提出将石棉纤维的物理加筋作用与水泥、粉煤灰的化学加固作用相结合,通过对不同纤维掺量(0%~9%)的石棉纤维粉煤水泥复合土进行直剪试验、无侧限抗压强度试验、劈裂试验、扫描电镜试验,进而对石棉纤维加筋水泥土的强度性质和影响机理进行探讨。研究表明,石棉纤维配合水泥与粉煤灰能显著提高软土的强度和稳定性,改善水泥土的破坏形式。水泥粉煤灰配比一定时,石棉纤维增强水泥复合土各强度指标值存在最优掺量,纤维添加量在3%~6%之间,石棉纤维的加筋效果在水泥土中能得到很好的发挥,超过最优掺量则会降低复合土的强度值。     

聚丙烯纤维加固软土的试验研究

为了研究聚丙烯纤维加固软土的效果和机制,改善石灰土和水泥土的脆性破坏形式。在试验中将纤维按质量百分比为0.05 %,0.15 %和0.25 %的掺量分别掺入到素土、石灰土和水泥土中,按不同的配比配制了20组试样,进行了无侧限抗压强度试验。试验结果显示：纤维的加入能在小范围内提高素土的无侧限抗压强度,并且强度值随纤维掺量的增加而增加;而在石灰土和水泥土中只要掺入少量的纤维就能使无侧限抗压强度值得到极大的提高,增加了石灰土和水泥土的抗拉强度,改善了它们的脆性破坏形式,并使其水稳性得到改善。     

水泥土强度室内与芯样试验结果对比分析

连临高速路江苏段地基土层为滨海相软土,路基采用水泥土搅拌桩加固.现场取土进行室内水泥土改性试验发现,水泥土强度随水泥掺量和龄期的增加而增大.现场水泥土搅拌桩抽芯样试验发现,相同龄期条件下,水泥土室内试验强度一般要比抽芯样强度高0.2至0.8兆帕.两种实验中,该地基第一层土的水泥土强度均大于第二层土,表明土层性质对水泥土强度影响很大.受搅拌不均匀影响,芯样试验强度比较离散,随芯样夹土厚度增加,水泥土芯样波速和强度下降.     

玄武岩纤维对水泥固化软土性能的影响研究

水泥固化软土是工程中一种常见的地基处理方法。然而众多工程实践表明,仅利用水泥加固软土,其早期强度偏低,且随着养护龄期的增长水泥固化土体积收缩,易造成工程土体的沉降和开裂等问题。本研究选用玄武岩纤维与水泥共同固化软土,探究玄武岩纤维对水泥固化土强度以及收缩性能的影响。本试验制备了不同水泥掺量、不同玄武岩纤维掺量的固化土试样,对各龄期条件下试样的无侧限抗压强度及收缩性质进行测试,结合力学性质及收缩特征,确定最佳的水泥及纤维掺量。并结合试样的微观结构特征来分析,考虑纤维对水泥固化土强度及收缩变形影响的机理。结果表明：纤维的加入能有效提高水泥土的强度,改善其收缩性。纤维在试样中随机离散分布,纤维的存在可起到一种“桥梁”作用,与水泥的水化产物一起充填于土样孔隙中,使得土颗粒间充分连接起来,限制了颗粒间的位移,提高了试样的强度,抑制了试样的收缩,提高了土体整体的稳定性。研究成果可为软土的有效固化处理及高效利用提供理论及实践参考。     

含盐量对水泥土强度影响的室内试验研究

通过含盐量对非有机质土加固强度影响的试验研究,得到了含盐量对水泥土强度的提高或减小的阈值为3.5%。当盐渍土的含盐量低于这个阈值时,盐渍土的加固强度会因可溶性盐的结晶膨胀作用,提高水泥土的强度;相反当盐渍土的含盐量高于该阈值时,盐渍土的强度会因可溶性盐的过多的结晶膨胀作用,使水泥土的结构遭到破坏,从而使水泥土的强度大大降低。同时分析了可溶性硫酸盐、镁盐和氯盐对水泥土的浸蚀性作用,并从盐类对水泥土强度的影响从机理上进行了阐释,提出了高含盐量对水泥土破坏作用的对策。     

××地块水泥土室内配合比试验

针对目前国内外水泥土强度测定的试验方法,还未形成规范操作的情况下,该文主要从室内试验的角度,阐述了水 泥土试验的目的、试验设备、试样的制备以及试验的方法,从而确定出最佳的水泥掺入比,同时对水泥土与原状土的 物理力学性质以及水泥土的强度增长机理作初步的探讨。     

上海黏性土与水泥混合后强度增长特性试验研究

对于使用水泥与上海黏性土进行混合加固的土体,其强度增长特性与水泥含量、加固土的初期pH值、养护时间有关。以上海4类黏土为研究对象,对加固土的强度增长特性进行了试验研究;探讨了加固土的养护时间、水泥含量、初期pH等与加固土强度的关系。试验结果表明,当上海黏土中水泥含量或者加固土的初期pH值大于某一临界值时,水泥加固土的强度将迅速增加,对于上海黏土,该临界pH值为11.7,对应的水泥含量为17%～20%。但当水泥含量达到一定值后,它对土体的pH值的影响开始变小,而且水泥土的强度趋于稳定的时间变长。     

水泥土强度的影响因素

水泥浆体搅拌地基加固技术是地基处理的技术方法之一,其水泥—土固结体的强度主要受地基土的含水量、水泥掺入量及地基土类别的影响。本文通过室内及工业性试验表明:土体的含水量对水泥土强度具有负作用;水泥土强度与水泥掺入比不是简单的单调上升关系;地基土的类别对水泥土强度的影响较大,淤泥及淤泥质土由于富含有机质,强度较低,粉质粘土、粘土形成的水泥土强度较高。      

若干水泥土外掺剂作用的试验研究

水泥土的强度主要来自水泥水化物的胶结作用。本文通过几种水泥土外掺剂对淤泥及淤泥质土的掺入比试验。分析得出水泥土外掺剂加固软土具有改良土料的级配和促进水泥的水化,促使增大土粒的团粒性,增强土粒间的连结和加剧降低土粒中孔隙水等作用,从而提高水泥土强度。     

水泥加固土的配比试验研究

通过对某拟建工程水泥加固土的室内配比试验，探求水泥土强度随水泥掺入比和龄期变化的增长规律，讨论不同水泥品种和水灰比及外掺剂地水泥土强度的影响程度，最后给出一种较为合理的配比方案和强度试验指标，为工程的设计和应用提供了可靠的工程依据，并对类似工程的加固具有一定的参考价值。     

Influence of Random Inclusion of Synthetic Wicks Fibers of Hair on the Behavior of Clayey Soils

Several soil improvement methods are used to enhance the engineering properties of soil, among which, reinforcement by fibers is considered as an effective ground improvement method because of its cost effectiveness, and easy adaptability. The present investigation chooses synthetic wick and vinifera raphia fibers as reinforcement. The synthetic wick fiber was randomly included into the soil at four different percentages i.e. 0, 2, 4, 6% by volume of raw soil. Vinifera raphia fiber was used at one percentage (4%) as control. The main objective of this research is to focus on the strength behavior of clayey soil reinforced with randomly included synthetic wick fiber. The physical and mineralogical characterization was carried out on ten soil samples. The compression, flexion, abrasion, water absorption and capillarity tests were performed on synthetic wick reinforced specimens with various fiber contents. The results of these tests have clearly shown an improvement in the compression strength values from 1.65 to 2.84 MPa for the wicks fibers, and the flexural strength values which varied between 1.08 and 1.96 MPa. Hence, the waste of synthetic wick fibers is therefore an efficient reinforcement for compressed earth blocks, which are very significant for construction of durable and economic infrastructures.     

Mechanical Behavior of a Clay Soil Reinforced with Nylon Fibers

Soft soils are well known for their low strength and high compressibility. Several techniques, including reinforcement, are commonly used to increase the strength and decrease the deformation of this kind of soil. This paper presents the results of an investigation into the effects of fiber on the consolidation and shear strength behavior of a clay soil reinforced with nylon fibers. A series of one dimensional consolidation and triaxial tests were conducted on samples of unreinforced and reinforced clay with different percentages of randomly distributed nylon fibers. The results show that the preconsolidation pressure decreases and the coefficient of swelling and compression generally increase with increasing the fiber content. Furthermore, the addition of the fiber leads to a significant increase in shear strength and friction angle of the natural soil.     

Shrinkage Properties of Soft Clay Treated with Cement and Geofibers

In this study, effects of two types of geofibers, namely polypropylene and recycled carpet, on three dimensional shrinkage properties of cement treated kaolinite and bentonite clays are investigated. Cement treated clay specimens were prepared with cement contents of 5, 10, and 15 % by weight of dry soil for kaolinite samples, and 30, 40 and 50 % for bentonite samples. To investigate and understand the influence of different fiber types and contents, three different percentages of fiber content (i.e. 0.1, 0.2 and 0.5 % polypropylene fibers; and 0.5, 0.75 and 1 % carpet fibers) were adopted. The results of shrinkage tests on 126 cylindrical samples of cement treated clay with various cement and fiber contents were analysed to understand the relationships between these parameters and the shrinkage percentage of treated soil. Results of this study indicate that combination of cement and fiber is effective in reducing the volume change of clayey soils undergoing drying process. In the applied ranges of cement and fiber contents, the influence of cement addition on the shrinkage reduction is more significant than the addition of fibers for the treated kaolinite. However, addition of fibers in curtailing the shrinkage of bentonite clay is more significant than the cement addition.     

纤维加筋土抗液化性能的研究进展

根据加筋方式的不同,纤维加筋可分为定向分布的纤维加筋和随机分布的纤维加筋两大类。本文针对这两类加筋方式,分别综述了纤维加筋技术在土体抗液化方面的相关研究进展,同时对纤维加筋土抗液化性能的主要影响因素进行了分析。既有针对纤维加筋土进行的动三轴试验、扭剪试验及模型试验等均表明,纤维加筋技术能有效地增强土体的抗液化强度,同时减小液化所引起的变形,是一种具有广泛应用前景的抗液化措施。     

Strength Behavior of Shanghai Clayey Soil Reinforced with Wheat Straw Fibers

It is generally recognized that the low strength and high compressibility are the characteristics of soft soil. In addition to other techniques, reinforcement can also be used in increasing the strength and decreasing the deformation of this kind of soil. The results of an investigation into the effects of a natural fiber on the consolidation and shear strength behavior of Shanghai clayey soil reinforced with wheat straw fibers are presented in this paper. A series of one dimensional consolidation and triaxial tests were conducted on samples of unreinforced and reinforced Shanghai clayey soil with different percentages of randomly distributed wheat straw fibers. The results show that the preconsolidation pressure decreases and the coefficient of swelling and compression generally increase with increasing the fiber content until a optimum content value. Furthermore, the addition of wheat straw fiber leads to a significant increase in shear strength and friction angle of the natural soil and there is an optimum wheat fiber content that makes this increase maximal.     

纤维加筋土中筋/土界面相互作用的微观研究

纤维与土体界面之间的相互作用对纤维加筋效果有着重要的影响,了解接触面之间力的产生和传递过程对合理有效地利用纤维改良土体的工程性质有着重要的意义.为了研究聚丙烯纤维在不同的土介质中筋/土界面间的微观力学作用机理,运用扫描电子显微镜(SEM)分别分析了纤维在素土、水泥土和石灰土中的表面形态学特征及接触面之间力的产生和传递过...     

纤维加筋土工程性质研究进展

纤维加筋是一种新型的土体改良技术,是指将分散的纤维丝均匀掺入土体中,达到提高土体的工程力学性能的目的。本文根据国内外近20a来在该领域取得的成果,着重对纤维加筋材料、纤维加筋土的工程性质及加筋机理等方面的研究进展进行了介绍。在纤维加筋材料方面,主要有人工合成纤维和自然纤维两种; 在纤维加筋土工程性质方面,纤维加筋能有效提高土体的抗剪、抗压、抗拉强度和承载力,增加土体的破坏韧性和渗透性,降低膨胀土的胀缩性和裂隙发育程度; 在纤维加筋机理方面,目前主要认为纤维的加筋效果主要取决于纤维-土界面的力学作用,即界面黏聚力和摩擦力。最后,针对目前纤维加筋土的研究不足,提出了今后该领域的研究重点和方向,主要包括: 开发简单可行的纤维土施工器具和工艺、开发更专业的纤维产品和降低纤维成本、开展大尺度模型试验和现场试验、纤维-土界面作用机理研究、纤维加筋土的破坏和失效机理研究、纤维加筋土的力学模型及计算理论研究、纤维加筋土的动力学特性研究等。     

A Study on the Mechanical Behavior of a Fiber-Clay Composite with Natural Fiber

This paper presents the results of an experimental investigation into the effects of discrete palm fibers on the consolidation and shear behavior of a randomly reinforced clay soil. Three groups of reinforced soil samples were prepared at three different fiber contents (10, 20 and 30 %). Consolidation and triaxial tests were carried out on the samples. The results indicate that the inclusion of the fiber reinforcement within the soil causes decrease in preconsolidation pressure and increase in compressibility and swelling indices. In addition, the strength and friction angle increase considerably in terms of total and effective stresses. The results also show that the increase in the slope of the critical state line in $ q :p^{\prime } $ space is a function of fiber content.     

超微粒子水泥加固软土试验研究

应用和研发各种固化材料,对软土进行固化和改性,以改善其工程特性是当今国际上研究的热点课题。通过室内试验,研究了一种新型超微粒子水泥材料（ALOFIX-MC,简称MC）加固软土的效果,分析了其加固和改性机制。试验中,MC以0 %、1 %、2 %、3 %、4 %和5 %的掺量分别掺入到水泥掺量15 %和石膏掺量2 %的软土试样中,配制了6组试样。室内无侧限抗压强度试验结果表明,在15 %掺量的普通水泥土中掺入少量MC就可以显著提高软土的强度和稳定性。扫描电镜（SEM）分析表明,MC的胶结填充作用和MC对水泥水化的促进、孔隙的填充以及其本身的表面吸水作用对加固效果有重要影响。研究成果为进一步提高水泥土的工程性质和减少常规水泥土中水泥掺量提供了一条新的途径。