水泥改良土的拉伸强度特性及其计算方法          下载免费PDF全文

魏洪山  王伟志  徐永福  白宇帆  严祯强  王浩 《水文地质工程地质》2022,49(6):81-89

水泥改良土具有强度高、变形小、施工操作简单、质量控制容易和经济效益显著等优点,被广泛应用于路基填筑、基坑回填、边坡防护和地基换填。水泥土裂缝影响路基工程的正常运行,甚至可能危及铁路路基安全。因此,铁路路基设计需要对路基填土的抗拉强度有一定程度的了解,水泥改良土抗拉强度的确定具有重要意义。水泥改良土的抗裂性能是影响工程应用的重要因素,拉伸强度是衡量水泥土抗裂性能的关键指标。本文基于常规无侧限压缩仪自行设计了直接测量水泥改良土拉伸强度的单轴拉伸试验方法,系统地研究了水泥掺量（A）、龄期（t）、含水率（w）和干密度（ρd）对水泥改良土单轴拉伸强度（σt）的影响,水泥改良土的单轴拉伸强度随水泥掺量、龄期和干密度增加而增加,随含水率增加而减小,建立了水泥改良土的单轴拉伸强度与et/A(et是水泥改良土的孔隙比)之间的指数函数关系。结合水泥改良土的无侧限抗压强度和基质吸力的测试结果,建立了单轴拉伸强度与无侧限抗压强度和基质吸力之间的相关关系。  相似文献   

用固化剂GX08加固杭州海湖相软土的强度特性研究     

徐日庆  李俊虎  蔡承晟  李雪刚  荣雪宁  畅帅 《岩土力学》2014,35(6):1528-1533

为了验证固化剂GX08加固杭州海湖相软土的效果及考察有机质对水泥固化的不利影响,对固化土的强度特性进行了试验研究。结果表明,有机质的添加会显著阻碍固化土强度的增长,而固化剂GX08能有效增强固化土的强度;固化土强度与有机质含量存在二次函数关系,与水泥掺量呈线性关系,与固化剂GX08掺量和龄期都以对数函数的形式相关;将总灰水比C/W用于固化土强度模型的建立,通过对试验数据的分析与整理,建立了同时考虑固化土中有机质含量、水泥掺量、固化剂掺量和龄期影响的固化土综合强度预测模型。最后对模型进行了推广使用,验证了模型的适用性。  相似文献   

矿渣胶凝材料固化软土的力学性状及机制   总被引：4，自引：0，他引：4  

张大捷  田晓峰  侯浩波  刘浩  谭石康 《岩土力学》2007,28(9):1987-1991

利用矿渣胶凝材料固化软土,既可利用工业废渣,又能减少水泥的用量。以矿渣胶凝材料固化黏土、砂土二种软土。发现矿渣胶凝材料加固软土的效果远好于水泥、石灰,其9 %掺量的固化土28 d的无侧限强度达到2.0 MPa以上,普遍高于15 %掺量的水泥固化土,且其28 d固化土的软化系数普遍高于90 %以上,固化黏土后CBR值远高于同掺量的石灰固化土。X衍射结构分析表明,矿渣胶凝材料水化时产生的高强难溶的矿物晶体是其固化软土效果好的主要原因。因此,矿渣胶凝材料是一种性能优异的软土加固材料。  相似文献   

超细水泥对固化软土早期抗压强度影响的试验研究     

征西遥  刘秀秀  吴俊  董毅 《工程地质学报》2020,28(4):685-696

为研究超细水泥含量对水泥固化软土的早期力学性能的影响,本文通过在普通水泥中加入不同掺量的超细水泥组成复合水泥固化剂用以固化软土。具体研究不同超细水泥掺量、不同初始含水率、及不同养护围压条件下,复合水泥固化剂对固化软土早期抗压强度及刚度的影响。采用自制K₀围压养护装置(施加不同轴向压力的方式)、无侧限抗压强度仪(UCS)、X射线衍射仪(XRD)、电镜扫描仪(SEM)和低场核磁共振孔隙测试仪(NMR)等试验手段获取复合水泥固化软土不同龄期的抗压强度、刚度及微观结构的变化规律,并揭示其固化机理。研究结果表明:(1)相同轴向压力作用下,随着超细水泥掺量的增加,固化软土的抗压强度和弹性模量均有提高,其中复合固化剂中的活性颗粒发生水化反应生成大量胶凝产物用以黏聚土颗粒和填充孔隙,惰性颗粒用于填充土颗粒间的孔隙;(2)随着含水率的提高,固化软土中孔相对发育,从而使固化软土结构致密性减弱,抗压强度降低;(3)在K₀围压养护7d时,固化软土的抗压强度和弹性模量随着轴向压力的提高而增加,表明养护围压对软土颗粒的压缩作用能提高固化软土的密实性,同时围压对固化软土产生有效应力,与水化产物共同促进固化软土形成密实的土骨架,进而使其在7d内具有较高的抗压强度。基于试验结果,建立轴向压力、含水率和超细水泥掺量等多因素的固化软土强度预测公式,并提出复合水泥固化软土结构模型,为工程实践提供理论基础。  相似文献   

矿渣−粉煤灰地聚合物固化砂土力学特性研究     

张津津  李博  余闯  张茂雨 《岩土力学》2022,43(9):2421-2430

硅酸盐水泥作为常规的土壤固化剂存在高能耗、高排放等问题,研究人员一直在寻求一种更加经济环保的水泥代替品。使用基于高炉矿渣（ground granulated blast-furnace slag,简称 GGBS）、粉煤灰（ fly ash,简称 FA）的地聚合物对砂土进行加固,通过调整激发剂的种类和配比、矿渣与粉煤灰比例、水灰比和养护条件等,研究不同因素对地聚合物固化砂土力学性能的影响。通过无侧限抗压强度（unconfined compressive strength,简称 UCS）测试、电子计算机断层扫描（ computed tomography,简称 CT ）分析、扫描电子显微镜（scanning electron microscope,简称 SEM）对试样进行了深入研究。结果表明：基于 GGBS-FA 的地聚合物可有效地提高砂土的力学性能;复合激发剂的加固效果优于单组分激发剂;低温不会明显降低地聚合物固化砂土的最终力学性能,仅延缓了地质聚合反应和结构的形成;碱性环境对地聚合物固化砂土的强度有促进作用;酸性环境及长时间暴露在空气中,会降低地聚合物固化砂土的强度。  相似文献   

水泥砂浆固化土三轴试验研究     

刘鑫  范晓秋  洪宝宁 《岩土力学》2011,32(6):1676-1682

为研究水泥砂浆固化土剪切强度特性和合理确定水泥砂浆固化土工程应用的配比,从掺砂量、水泥掺入比、原料土含水率及砂料粒径入手,对水泥砂浆固化土进行了室内固结不排水三轴（CU）试验研究。结果表明,掺砂可以改善固化土强度;随掺砂量的增加,黏聚力和有效黏聚力先增加后减小,转折点的掺砂量为最佳掺砂量（10%左右）,内摩擦角和有效内摩擦角不断增加,一定掺砂量下增加水泥掺入比可有效地提高固化土的强度;随着含水率的增加,固化土的黏聚力呈近似线性减小的关系,而内摩擦角几乎保持不变,采用水泥砂浆处理高含水率软弱地基时适当提高掺砂量,可以较大幅度改善固化土的力学性质;在掺料配比一定的情况下砂料粒径对固化土的抗剪强度指标存在一定的影响。采用单一粒径砂料的固化土抗剪强度更高,该单一粒径在固化土级配良好的前提下,不均匀系数Cu趋于最大、曲率系数Cc趋于最小  相似文献   

Influence of Drying on the Stiffness and Strength of Cement-Stabilized Soils     

Alain Le Kouby  Antoine Guimond-Barrett  Philippe Reiffsteck  Anne Pantet 《Geotechnical and Geological Engineering》2018,36(3):1463-1474

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   

冻融作用下PPF稳定土力学性能研究   总被引：4，自引：4，他引：0  

刘雨彤  杨林 《冰川冻土》2017,39(4):850-857

为了研究冻融作用下外加材料稳定土的力学性能,以一种国产土壤固化剂（TG固化剂）加固低剂量水泥石灰稳定土为研究对象,通过冻融前后的无侧限抗压强度试验、劈裂强度试验和抗压回弹模量试验,研究不同压实度、聚丙烯纤维（PPF）掺量稳定土的力学性能。结果表明：稳定土的抗压强度、劈裂强度及回弹模量均随冻融次数的增加而降低,经历6次冻融循环后,强度、模量损失率基本稳定。冻融前后稳定土的抗压强度、劈裂强度、抗压回弹模量以及强度、模量的残留百分比均随着压实度和PPF掺量的提高而增大。结合工程实际情况,选取压实度为95%,0.2% PPF综合稳定土进行冻融试验,得到抗压强度残留比（BDR）达到59.32%,质量变化率仅为6.28%,研究表明,PPF综合稳定土具有优良的冻稳定性,可用作路面基层材料。  相似文献   

新型GS固化土与水泥土的力学特性对比研究     

陈鑫  俞峰  洪哲明  潘黎芳  刘兴旺  李瑛 《工程地质学报》2022,30(4):1111-1121

GS(Gypsum-Slag)土体硬化剂是一种由水泥、钢渣、矿渣和脱硫石膏及其他外加剂组成的新型土体固化材料。将GS土体硬化剂和水泥两种固化剂固化土作为研究对象,通过室内无侧限抗压强度试验和电镜扫描试验,研究固化土的应力-应变曲线以及土质、固化剂掺量、龄期对固化土力学性能的影响,观察其微观结构,进而对比分析GS土体硬化剂和水泥的特性,并进行现场试验加以验证。研究结果表明：相比水泥土,GS固化土应力-应变曲线存在明显峰值;GS固化土和水泥土的强度均随着掺量和龄期正增长,且GS固化土的长期强度更高;GS固化土和水泥土变形模量分别是其抗压强度的31.11～77.24倍和23.24～71.62倍;GS固化土现场成桩的完整性优于水泥土。相比水泥土,GS固化土具有强度增长快、后期强度高、经济效益好的特点,可较好满足地下工程和路基工程等土体加固应用需求。  相似文献   

氯盐对水泥固化土应力应变特性影响分析     

范礼彬  章定文  邓永锋  刘松玉 《工程地质学报》2012,20(4):621-626

以人工制备的方法配制了不同氯盐含量的土样,并掺入不同含量的普通硅酸盐水泥对其进行固化处理。采用无侧限抗压强度试验对氯盐含量对水泥固化土的应力应变特征影响规律进行分析。试验结果表明:随着氯盐含量的增加,水泥固化土的无侧限抗压强度和变形模量降低,破坏应变随之增大,应力-应变关系曲线由脆性破坏向塑性破坏转化; 增加水泥用量可以减缓氯盐对水泥固化土的不良影响; 但水泥固化土变形模量与无侧限抗压强度的比值与氯盐含盐量大小无明显关系。  相似文献   

超微粒子水泥加固软土试验研究   总被引：1，自引：0，他引：1  

赵理政  姜洪涛  唐朝生  施斌 《岩土力学》2010,31(1):118-122

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。  相似文献   

New design chart for geotechnical ground improvement: characterizing cement-stabilized sand     

Wei  Xiao  Ku  Taeseo 《Acta Geotechnica》2020,15(4):999-1011

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   

有机质固化土的强度及微观结构试验研究     

郭印  徐日庆  邵玉芳  齐静静 《岩土力学》2006,27(Z1):534-538

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   

Effect of Cement and Quarry Dust on Shear Strength and Hydraulic Characteristics of Lithomargic Clay     

Sitaram Nayak  Purushotham G. Sarvade 《Geotechnical and Geological Engineering》2012,30(2):419-430

The lithomargic clay constitutes an important group of residual soils existing under lateritic soils. This soil is found on the western and eastern coasts of India over large areas. This soil is a problematic one and is very sensitive to water and loses a greater part of its strength when becomes saturated. These high silt deposits have invited many problems such as slope failures, foundation failures, embankment failures, uneven settlements etc. In this investigation an attempt is made to study the effect of cement and quarry dust on shear strength and hydraulic characteristics of the lithomargic clay after the stabilization. Microfabric and mineralogical studies were carried out to find out the reason for the strength development of the stabilized soil using SEM and XRD analysis. The results indicated that there is an improvement in the properties of the lithomargic clay with the addition of cement and quarry dust. The XRD results indicated the formation of CSH and CAH, which are responsible for strength development in the stabilized soil.  相似文献   

水泥复合偏高岭土稳定粉砂土力学特性试验研究     

谷雷雷 《地质与勘探》2024,60(1):148-155

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   

黄土化学改良试验研究     

王银梅  高立成 《工程地质学报》2012,20(6):1071-1077

黄土的化学改良是黄土工程地基处理研究领域中的重要课题之一,开展这方面的研究对于治理黄土地基基础工程,从根本上解决黄土危害具有重要的理论价值和较好的工程应用前景。在我国西北、华北地区,经常要碰到填筑路基、渠道和边坡等黄土工程,由于黄土及重塑黄土具有许多特殊的物理力学性能,必须经过改良处理后才可应用。为了探讨化学材料对黄土特性的影响,本文以山西太原黄土为对象,通过掺加新型高分子土固化材料SH和水泥进行化学改良,就改良土试样进行抗压强度、直接剪切和渗透试验等分析研究。研究结果表明:SH和水泥均能改变黄土的工程性质。黄土加固后强度指标,抗渗性优于黄土本身。固化黄土的强度特性和渗透性能受固化材料掺量、密度和龄期的影响明显。随着掺量增加,密度增大和养护时间的延长,抗压强度提高,抗剪强度增强,渗透系数减小。考虑到大掺量会超过经济限度,建议两者较适宜掺量控制在10%左右。SH 为水溶性液体固化材料,固含量较少,成本较低,但固化后强度较大,渗透性小,浸水不崩解,化学改良效果优于水泥,实际应用时可根据具体情况考虑优先选用SH改良黄土。  相似文献   

重塑石灰土的强度恢复方法与机制初探     

谈云志  喻波  刘云  左清军  胡莫珍  郑爱 《岩土力学》2015,36(3):633-639

石灰稳定土工程翻修改造后会产生大量的石灰土弃渣,为避免污染环境和节约工程投资,需重新利用破碎的石灰土进行填筑。但石灰土破碎后强度急剧降低,需要添加胶凝材料提升其力学性能。以重塑石灰土为研究对象,通过添加5%石灰或水泥进行再改良,对比分析两种再改良土的强度和压缩性等力学指标,结果表明,石灰再改良土的力学特性优于水泥再改良土。借助粒度分析、电镜扫描、X衍射和热重分析试验手段揭示了石灰再改良土性能优越的内在机制,发现石灰再改良土中的石灰和石灰土团粒能形成很好的胶结;但水泥未能和石灰土团粒形成有效胶结,自身形成了边-面和边-边接触的片状多孔架构。重塑石灰土残存的氢氧化钙是引起水泥再改良土性能劣于石灰再改良土的主要诱因。  相似文献   

Evaluation of Engineering and Cement–Stabilization Parameters of Clayey–Sand Mixtures under Soaked Conditions     

Evangelos?I.?StavridakisEmail author 《Geotechnical and Geological Engineering》2005,23(6):635-655

Clay soils, especially clay soils of high or very high swelling potential often present difficulties in construction operations. However, the engineering properties of these clay soils can be enhanced by the addition of cement, thereby producing an improved construction material. Higher strength loss of cement stabilized clay soils after soaking in water is attributed to water absorbing capacity of the clay fraction (e.g. montmorillonite). Kaolinite and illitic soils are largely inert and resist to water penetration. These clays generally develop satisfactory strengths resulting to low strength reduction [Croft, 1967]. The swelling clays such as bentonite soaked in water, due to environmental conditions, result to volume increase causing macro and micro-fracturing in engineering structures. These fractures accelerate water penetration and consequently cause greater strength loss [Sällfors and Öberg-Högsta, 2002]. The water intrusion during soaking creates swelling and disrupts the cement bonds. The development of internal and external force systems in soil mass, due to soaking conditions, establish the initiation of slaking. Internal force system of a stabilized clayey soil consists of the resultant stresses established by the bonding potential of a cementing agent and the swelling potential of a clay fraction. In an effort to study this influence of soaking conditions and final absorbed water content on the stabilization parameters (cement, compaction, curing time), both unconfined compressive strength and slaking (durability) tests were carried out on two different cement stabilized clayey mixtures consisted of active bentonite, kaolin and sand.  相似文献   

稻壳灰-地聚物固化土力学特性及机理分析          下载免费PDF全文

易富  管茂成  李军  杜常博 《水文地质工程地质》2022,49(2):94-101

为了研究绿色环保新型流态固化土在狭窄肥槽回填等工程问题中的应用,提出稻壳灰联合地聚物固化工程渣土形成流态稻壳灰-地聚物固化土。采用无侧限抗压强度（UCS）试验、X射线衍射(XRD)、扫描电子显微镜(SEM)和X射线能谱分析（EDS）等测试方法,研究稻壳灰的掺量与粒径对稻壳灰-地聚物固化土的无侧限抗压强度（UCS）的影响规律,并探讨了稻壳灰掺量与粒径对其微观结构影响规律。结果表明:稻壳灰-地聚物固化土的净浆流动度与稻壳灰的掺量、粒径呈负相关关系,其凝结时间与稻壳灰掺量呈正相关关系,但与稻壳灰的粒径呈负相关关系;稻壳灰-地聚物固化土UCS值随着稻壳灰的掺量增加、粒径降低而显著提高,当稻壳灰的掺量增加到10%后,强度提升效能降低,初步判定稻壳灰的最优掺量为10%;固化过程中产生水化硅铝酸钠（N-A-S-H）和水化硅酸钙（C-S-H）2种凝胶,起到填充内部孔隙和胶结土颗粒的作用,使整体结构趋于完整,是稻壳灰-地聚物固化土强度提升的根本原因。研究成果可为稻壳灰在流态固化土的工程应用提供理论依据。  相似文献   

Sustainable Improvement of Tropical Residual Soil Using an Environmentally Friendly Additive     

Ahmad Safuan A. Rashid  Nima Latifi  Christopher L. Meehan  Kalehiwot N. Manahiloh 《Geotechnical and Geological Engineering》2017,35(6):2613-2623

Many tropical residual laterites have relatively poor engineering properties due to the significant percentage of fine-grained soil particles that they contain, which are formed by the soil weathering process. The widespread presence of laterite soils in tropical regions often requires that some form of soil improvement be performed to allow for their use in various civil engineering applications, such as for road base or subbase construction. One of the most commonly utilized stabilization techniques for laterite soils is the application of additives that chemically react with the minerals that are present in soil to enhance its overall strength; effective soil stabilization can allow for the use of site-specific soils, and can consequently result in significant cost savings for a given project. With an increasing focus on the use of more environmentally friendly and sustainable materials in the built and natural environments, there is an emerging interest in eco-friendly additives that are an alternative to traditional chemical stabilizers. The current study examines the viability of xanthan gum as an environmentally friendly stabilizer that can improve the engineering properties of tropical residual laterite soil. Unconfined compressive strength (UCS) tests, standard direct shear tests, Brunauer, Emmett, and Teller (N₂-BET) surface area analysis tests and field emission scanning electron microscopy (FESEM) tests were used to investigate the effectiveness of xanthan gum for stabilization of a tropical laterite soil. The UCS test results showed that addition of 1.5% xanthan gum by weight yielded optimum stabilization, increasing the unconfined compressive strength of the laterite soil noticeably. Similarly, direct shear testing of 1.5% xanthan gum stabilized laterite specimens showed increasing Mohr–Coulomb shear strength parameters with increases in curing time. From the FESEM results, it was observed that the stabilization process modified the pore-network morphology of the laterite soil, while also forming new white layers on the surface of the clay particles. Analysis of the test results indicated that xanthan gum stabilization was effective for use on a tropical residual laterite soil, providing an eco-friendly and sustainable alternative to traditional soil stabilization additives such as cement or lime.  相似文献