工业废渣加固土强度特性   总被引：3，自引：0，他引：3  

章定文  曹智国 《岩土力学》2013,34(Z1):54-59

工业废渣的资源化是解决工业废渣环境污染的有效途径之一。以粉煤灰和高炉矿渣为固化剂,石灰为碱性激发剂,对黏土进行加固。通过室内试验的方法,分析固化剂掺入量、养护龄期等对固化土无侧限抗压强度、pH值和饱和度等发展规律的影响。试验结果表明,固化土的无侧限抗压强度随固化剂掺入量的增加而增大,随养护龄期的增加而增大,提出一个综合反映固化剂掺入量、养护龄期和压实度等因素对固化土强度影响规律的综合影响因子,固化土强度与综合影响因子呈负指数函数关系;粉煤灰+石灰和高炉矿渣+石灰可有效改良土体无侧限抗压强度特性;石灰是一种有效的碱性激发剂,可提供工业废渣发生火山灰反应的高碱性环境。试验成果为工业废渣改良不良土质的设计提供试验依据。  相似文献   

Cation Exchange Capacity of Phosphoric Acid and Lime Stabilized Montmorillonitic and Kaolinitic Soils     

Amin Eisazadeh  Khairul Anuar Kassim  Hadi Nur 《Geotechnical and Geological Engineering》2012,30(6):1435-1440

Studies on the chemically stabilized soils have shown that the effectiveness of treatment is largely dependent on soil??s natural environment. In this research, the time-dependent changes induced in permanent cation exchange capacity of lime and phosphoric acid treated soils, comprised mainly of montmorillonite and kaolinite minerals, were investigated. Also, in order to study the relationship between the exchange capacity and acidity/alkalinity of pore water, pH measurements were performed on cured samples. Based on the collected data, it was found that the pH of stabilized soils showed a tendency for reaching soil??s natural pH with increasing curing time. In addition, the increase in number of broken bonds around the edges of soil particles and also the formation of cementitious compounds that acquired negative charges contributed to achieving higher CEC_p values at longer curing periods. Nevertheless, the kaolinite mineral with pH-dependent structural properties, showed a rather limited behavior in the acidic medium. From engineering point of view, the lime treated samples revealed the highest degree of improvement with an approximately ten-fold strength increase in comparison to the natural soil over an 8?months curing period.  相似文献   

Gypsum Induced Strength Behaviour of Fly Ash-Lime Stabilized Expansive Soil   总被引：1，自引：1，他引：0  

P. V. Sivapullaiah  Arvind Kumar Jha 《Geotechnical and Geological Engineering》2014,32(5):1261-1273

Physical and engineering properties of soil are improved with various binders and binder combinations. Fly ash and lime are commonly used to improve the properties of expansive soils. An attempt has been made, in this paper, to examine the role of gypsum on the physical and strength behaviour of fly ash-lime stabilized soil. The change in strength behaviour is studied at different curing periods up to 90 days, and the mechanism is elucidated through pH, mineralogical, microstructural and chemical composition study. The strength of soil-fly ash mixture has improved marginally with the addition of lime up to 4 % lime and with curing period for 28 day. Significant increase in strength has been observed with 6 % lime and enhanced significantly after curing for 90 days. The variations in the strength of soil with curing period is due to cation exchange and flocculation initially, and binding of particles with cementitious compounds formed after curing. With addition of 1 % gypsum to soil-fly ash-lime, the strength gain is accelerated as seen at 14 day curing. The accelerated strength early is due to formation of compacted structure with growth of ettringite needles within voids. However, strength at curing for 28 day has been declined due to annoyance of clay matrix with the increase in size of ettringite needle; and again increased after curing for 90 days. The rearrangement of clay matrix and suppression of sulphate effects with formation of cementitious compounds are observed and found to be the main responsible factors for strength recovered.  相似文献   

Long-term behavior of lime-stabilized kaolinite clay   总被引：1，自引：1，他引：0  

Aydın Kavak  Gökhan Baykal 《Environmental Earth Sciences》2012,66(7):1943-1955

Clay soils create many problems for highway construction and they have to be replaced or improved by stabilization for satisfactory performance. Lime stabilization is a well-established technique to improve the performance of clays. Cementitious minerals form upon mixing of clay with lime causing an improvement in strength and durability. In the study, the changes in the microfabric of long-term cured lime-stabilized kaolinite clay using X-ray diffraction pattern, scanning electron microscope and unconfined compressive strength (UCS) is presented. Unconfined compression test samples at two different lime contents (4 and 12% by weight) were prepared and cured in a humidity room for long time curing. The UCS of pure kaolinite was originally 125 kPa, which increased to 1,015 kPa after 1 month and to 2,640 kPa (21 times the initial value) after 10 years for cured lime-stabilized kaolinite samples. Similar long-term strength increases were also observed for stabilized kaolinite with 12% lime. Calcium aluminate silicate hydrate minerals were detected in the structure of the kaolinite. This suggests pozzolanic reactions with lime stabilization may continue in the long-term for up to 10 years.  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   

Lime stabilization of clay minerals and soils   总被引：24，自引：0，他引：24  

F.G. Bell 《Engineering Geology》1996,42(4):223-237

Clay soil can be stabilized by the addition of small percentages, by weight, of lime, thereby enhancing many of the engineering properties of the soil and producing an improved construction material. In order to illustrate such improvements, three of the most frequently occurring minerals in clay deposits, namely, kaolinite, montmorillonite and quartz were subjected to a series of tests. As lime stabilization is most often used in relation to road construction, the tests were chosen with this in mind. Till and laminated clay were treated in similar fashion. With the addition of lime, the plasticity of montmorillonite was reduced whilst that of kaolinite and quartz was increased somewhat. However, the addition of lime to the till had little influence on its plasticity but a significant reduction occurred in that of the laminated clay. All materials experienced an increase in their optimum moisture content and a decrease in their maximum dry density, as well as enhanced California bearing ratio, on addition of lime. Some notable increases in strength and Young's Modulus occurred in these materials when they were treated with lime. Length of time curing and temperature at which curing took place had an important influence on the amount of strength developed.  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   

偏高岭土增强石灰-水泥固化淤泥的耐久性研究     

谈云志  柯睿  陈君廉  吴军  邓永锋 《岩土力学》2020,41(4):1146-1152

淤泥富含有机质，分解后产生腐殖酸，进而影响淤泥固化效果。仅掺入12%水泥固化淤泥，当标准养护期超过60 d，其强度不增反减。联合掺入3%石灰和12%水泥，固化淤泥的pH值持续180 d处于10.5以上；无侧限抗压强度由750 kPa（养护期28 d）提升到1 500 kPa（120 d），说明借助石灰营造强碱性环境，可以提高水泥固化淤泥的强度；但养护到180 d后，其强度又降到1 250 kPa；钙离子浓度变化规律表明，这是由于腐殖酸溶蚀水泥和石灰的水化胶结物所致。借助偏高岭土卓越的火山灰反应能力，掺入3.0%偏高岭土，提升石灰（3%）?水泥（12%）固化淤泥的耐久性，发现180 d养护期内，其强度始终处于增长趋势，究其原因是偏高岭土富含无定形硅、铝氧化物，具有快速捕获氢氧化钙溶液中钙离子的能力，形成稳定的胶结物，而且不易受腐殖酸的侵蚀作用，证明偏高岭土能够有效提升石灰?水泥固化淤泥长期强度。  相似文献   

石灰改良红层无侧限抗压强度试验研究   总被引：3，自引：1，他引：2  

周宇  李国玉  武红娟  穆彦虎  赵文斌  毛云程 《冰川冻土》2021,43(2):535-543

红层是一种特殊岩土,作为路基材料时,常会导致不均匀沉陷、翻浆冒泥等病害。为改善其力学性质,工程上通常掺入一定剂量的石灰（Ca（OH）₂）进行改良。由于降水-蒸发的周期性变化,运营期间反复干湿循环作用对路基土的工程性质造成较大影响。基于此,结合室内无侧限抗压强度试验,研究了干湿循环作用对不同掺量的石灰改良红层无侧限抗压强度的影响。结果表明：在最佳含水率下,石灰改良红层的无侧限抗压强度随石灰掺量的增加而增大;干湿循环作用对改良红层无侧限抗压强度的影响与石灰掺量有关,石灰掺量较低时,改良红层的抗压强度随干湿循环次数的增加而减小,石灰掺量较高时,改良红层的无侧限抗压强度随干湿循环次数的增加而显著增大;未改良红层塑性较大,试样均为塑性鼓胀破坏,掺入石灰后,红层强度增大,脆性增强,呈脆性剪切破坏,经历干湿循环作用后,石灰改良红层试样呈多缝锥形破坏。  相似文献   

Effect of Lime Stabilized Soil Cushion on Strength Behaviour of Expansive Soil     

Jagadish Prasad Sahoo  Pradip Kumar Pradhan 《Geotechnical and Geological Engineering》2010,28(6):889-897

An experimental investigation was undertaken to study the effects of lime-stabilized soil-cushion on the strength behavior of expansive soil. In the present investigation, a series of laboratory tests (Unconfined compression tests and CBR tests) were conducted on both expansive soil alone and expansive soil cushioned with lime-stabilized non-expansive cohesive soil. Lime contents of 2, 4, 6, 8 and 10% by dry weight of cohesive non-swelling soil was used in the stabilized soil cushion. Both expansive soil and lime stabilized soil cushion were compacted to Standard Proctor’s optimum condition with thickness ratio 2:1. Tests on cushioned expansive soils were conducted at different curing and soaking periods i.e., 7, 14, 28 and 56 days. The test results revealed that maximum increase in strength was achieved after 14 days of curing or soaking period with 8% of lime content.  相似文献   

Improvement of Clayey Soil with Lime and Industrial Sludge     

R. Noorzad  S. Motevalian 《Geotechnical and Geological Engineering》2018,36(5):2957-2966

Industrial waste generation has reached up to millions of tons yearly. One way to solve the problems of the large accumulating amount of waste could be to incorporate it into the soil; thus, finding a way for the use of industrial waste could be a quest for soil improvement studies. Industrial sludge in certain pozzolanic form reacts with soil and possesses cementitious properties. This paper illustrates the utilization of lime, steel and copper sludge in improvement of high plasticity clayey soil. The influence of stabilizer type, different curing times and various ratios of lime to sludge are evaluated by Atterberg limits, standard proctor compaction, unconfined compressive strength and unconsolidated undrained strength in triaxial test. The  test results show that adding lime and sludge results in an increase in maximum strength. Moreover, the strength of soil increases with the increase of curing time. Utilizing stabilizers also influences plasticity index and compaction parameters. Finally, the results demonstrate that steel sludge has better performance than that of copper sludge in term of strength development.  相似文献   

钾盐和磷酸盐对固化土早期强度的影响研究     

肖寒冰  欧忠文  刘晋铭  莫金川  杨康辉 《岩土力学》2015,36(6):1643-1648

利用土壤板结原理,通过对硫铝酸盐水泥固化土无侧限抗压强度试验和水稳定性试验,探讨钾盐、磷酸盐对其早期强度的影响规律;通过X射线衍射（XRD）对固化土的物相成分进行了分析,探讨钾盐、磷酸盐影响固化土强度的变化内在机制。试验结果表明,钾盐、磷酸盐对固化土强度提高的阈值为0.6%,当盐掺入量低于该阈值时,固化土强度会随着盐掺量的增加而提高,当盐掺入量超过该阈值时,固化土强度会逐渐降低。盐掺入量不超过2%时,掺盐固化土水稳定性与未掺盐固化土差不多,7 d固化土软化系数基本保持在70%以上,但掺入K2SO4的固化土水稳定性较差,软化系数在60%左右。生成高强难溶具有膨胀性的矿物晶体是掺盐固化土早期强度提高的主要原因,但盐掺入量过高,固化土中矿物晶体过多膨胀作用,破坏固化土结构,而使固化土早期强度降低。  相似文献   

Use of Natural Pozzolana and Lime for Stabilization of Cohesive Soils   总被引：1，自引：0，他引：1  

Khelifa?Harichane  Mohamed?Ghrici  Said?KenaiEmail author  Khaled?Grine 《Geotechnical and Geological Engineering》2011,29(5):759-769

The present study investigates the use of natural pozzolana combined with lime for ground improvement applications. Laboratory tests were undertaken to study the effect of natural pozzolana, lime or a combination of both on the physical and the mechanical characteristics of cohesive soils. Natural pozzolana, lime and natural pozzolana-lime were added to two cohesive soils at ranges of 0–20 and 0–8%, respectively. Consistency, compaction, undrained traxial shear and unconfined compressive strength tests were performed on untreated and treated soil samples to assess the physical and mechanical characteristics of the soil. Treated samples were cured for 1, 7, 28 and 90 days. The results show that the cohesive soils can be successfully stabilized by combining natural pozzolana and lime.  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   

偏高岭土协同石灰钝化红黏土水敏性的机制     

谈云志  胡焱  曹玲  邓永锋  明华军  沈克军 《岩土力学》2020,41(7):2207-2214

红黏土水敏性强,添加石灰等碱性材料处治后,能获得即刻的改良效果,但由于红黏土呈弱酸性,石灰改良后其长期性能会衰减。为提高石灰稳定红黏土（简称La+L）的长期性能,添加偏高岭土（4%）协同石灰（5%）稳定红黏土（简称La+L+MK）,改善其水敏性和酸?碱互损作用。制备8种初始含水率的压实试样（初始孔隙比相同）,养护到预定时间后开展无侧限抗压强度试验,同时,测定试样的钙离子浓度、电导率和pH值。结果表明：初始含水率为26%左右时,改良土的无侧限抗压强度最高,初始含水率偏高或偏低都不利于改良土的强度增长。究其原因,试样偏干时,缺少水分,石灰水化不充分,不能形成游离态钙离子,无法进行火山灰反应,颗粒之间无法形成胶结;试样偏湿时,火山灰反应形成的胶结强度不及过量水分引起的基质吸力丧失量。试样的钙离子浓度和电导率变化规律,证实了以上原因解释的猜想。当然,添加偏高岭土后,能够显著改善偏湿状态下的石灰土强度。即使浸水饱和后,相对石灰改良土,也能够保持较高的强度,充分证明偏高岭土能够有效降低石灰土水敏性,提高其耐久性。偏高岭土直接提供了大量硅、铝氧化物,且将土体pH值降到有利于硅、铝氧化物溶解的碱性范围,加速火山灰反应,缓减或抑制石灰?红黏土的互损作用。  相似文献   

Pilot-scale field investigation of ex situ solidification/stabilization of soils with inorganic contaminants using two novel binders     

Feng  Ya-Song  Du  Yan-Jun  Xia  Wei-Yi  Reddy  Krishna R. 《Acta Geotechnica》2020,15(6):1467-1480

Recently, two novel binders, one by-product-based binder named as GM and one phosphate-based binder named as KMP, have emerged that can stabilize soils spiked with mixed lead and zinc contaminants. However, field evaluations of the stabilization of actual soils that contaminated with mixed zinc (Zn) and inorganic chloride (Cl^?) using GM and KMP have not been performed yet. This study presents a pilot-scale field test to evaluate the performance of GM and KMP to stabilize these inorganic contaminants in soils at two locations in an abandoned industrial plating plant site. The field soils were stabilized and cured for 1, 3, 7, and 28 days and tested for dry density, dynamic cone penetration, soil pH, and leachability. Laboratory unconfined compression tests were performed, and the relationship between unconfined compressive strength and dynamic cone penetrometer index was assessed. The results showed that the strength of both the GM- and KMP-stabilized soils after 28-day curing improved significantly, and the leached Zn and Cl^? concentrations were well below the corresponding remediation limits. In general, the KMP-stabilized soil demonstrated superior performance in terms of higher dry density, unconfined compressive strength, average dynamic cone penetration resistance, lower dynamic cone penetrometer index in the early curing stage (7 days), and lower leached Zn concentration under all curing times. In contrast, the GM exhibited superior immobilization of Cl^? in the contaminated soil irrespective of the curing time. The results demonstrate that GM and KMP are promising binders for treating Zn- and Cl^?-contaminated soils at plating and other industry sites with similar contaminants.

  相似文献   

Effect of the combination of lime and natural pozzolana on the compaction and strength of soft clayey soils: a preliminary study   总被引：1，自引：0，他引：1  

Khelifa Harichane  Mohamed Ghrici  Said Kenai 《Environmental Earth Sciences》2012,66(8):2197-2205

Soft soil stabilization has been practised for quite some time by mixing additives, such as cement, lime and fly ash to the soil to increase its strength. However, there is a lack of investigations on the use of natural pozzolana alone or combined with lime for ground improvement applications. An experimental programme was undertaken to study the effect of using lime, natural pozzolana or a combination of both on the geotechnical characteristics of soft soils. Lime or natural pozzolana was added to soft soils at ranges of 0?C10% and 0?C20%, respectively. In addition, combinations of lime?Cnatural pozzolana were added to soft soils at the same ranges. Test specimens were subjected to compaction tests, shear tests and unconfined compression tests. Specimens were cured for 1, 7, 28 and 90?days, after which they were tested for unconfined compression tests. Based on the favourable results obtained, it can be concluded that the soft soils can be successfully stabilized by the combined action of lime and natural pozzolana. Since natural pozzolana is much cheaper than lime, the addition of natural pozzolana in lime?Csoil mix may particularly become attractive and can result in cost reduction of construction.  相似文献   

Effect of polypropylene fibre and lime admixture on engineering properties of clayey soil   总被引：2，自引：0，他引：2  

Yi Cai  Bin Shi  Charles W.W. Ng  Chao-sheng Tang 《Engineering Geology》2006,87(3-4):230-240

In order to reduce the brittleness of soil stabilized by lime only, a recent study of a newly proposed mixture of polypropylene fibre and lime for ground improvement is described and reported in the paper. To investigate and understand the influence of the mixture of polypropylene fibre and lime on the engineering properties of a clayey soil, nine groups of treated soil specimens were prepared and tested at three different percentages of fibre content (i.e. 0.05%, 0.15%, 0.25% by weight of the parent soil) and three different percentages of lime (i.e. 2%, 5%, 8% by weight of the parent soil). These treated specimens were subjected to unconfined compression, direct shear, swelling and shrinkage tests. Through scanning electron microscopy (SEM) analysis of the specimens after shearing, the improving mechanisms of polypropylene fibre and lime in the soil were discussed and the observed test results were explained. It was found that fibre content, lime content and curing duration had significant influence on the engineering properties of the fibre–lime treated soil. An increase in lime content resulted in an initial increase followed by a slight decrease in unconfined compressive strength, cohesion and angle of internal friction of the clayey soil. On the other hand, an increase in lime content led to a reduction of swelling and shrinkage potential. However, an increase in fibre content caused an increase in strength and shrinkage potential but brought on the reduction of swelling potential. An increase in curing duration improved the unconfined compressive strength and shear strength parameters of the stabilized soil significantly. Based on the SEM analysis, it was found that the presence of fibre contributed to physical interaction between fibre and soil whereas the use of lime produced chemical reaction between lime and soil and changed soil fabric significantly.  相似文献   

Effect of sodium sulphate on the shear strength of clayey soils stabilised with additives     

Hamid Gadouri  Khelifa Harichane  Mohamed Ghrici 《Arabian Journal of Geosciences》2017,10(10):218

The effect of sulphates on the soil stabilisation using mineral additives such as lime, cement and fly ash has been reported by several researchers. The effect of sodium sulphate (Na₂SO₄) (0–6% by dry weight of soil) on the behaviour of the grey clayey soil (GS) and red clayey soil (RS) stabilised with lime (L) (0–8%), natural pozzolana (NP) (0–20%) and with a combination of lime-natural pozzolana (L–NP) was investigated. The soil specimens were subjected to testing of direct shear strength after 7, 30, 60 and 120 days of curing period. In the absence of Na₂SO₄, the results show that both clayey soils can be successfully stabilised with L or with a combination of L–NP, which substantially increases their shear strength and produces high values of shear parameters. However, at short curing period and for any content of Na₂SO₄, a further increase in shear strength and shear parameters is observed. Moreover, after 30 days of curing, the RS specimens stabilised with L or with NP alone are altered when the Na₂SO₄ is greater than 2%, whereas the GS specimens are not altered. However, the alteration of RS specimens is little when the L and NP are combined on curing with a high content of Na₂SO₄. Generally, the effect of Na₂SO₄ on both stabilised clayey soils depends on the curing time, percentage of additives used and their type, mineralogical composition of stabilised soils and Na₂SO₄ content.  相似文献   

纳米SiO₂和石灰改良黄泛区粉土的力学特性研究     

张艳美  马丁  李国勋  毕舰心 《工程地质学报》2021,29(4):1233-1239

为探究纳米SiO₂和石灰对黄泛区粉土的改良效果,通过击实试验、无侧限抗压强度试验、扫描电镜试验和XRF试验等系列试验,研究纳米SiO₂和石灰掺量对黄泛区粉土压实性、抗压强度、水稳性等力学特性的影响,分析改良粉土的微观结构及固化机理。结果表明:纳米SiO₂改良土的最大干密度和最优含水率随纳米SiO₂掺量的增加而提高,纳米SiO₂改良土中掺加石灰会降低最大干密度,但会提高最优含水率;纳米SiO₂与石灰联合使用改良效果优于单独掺入纳米SiO₂,1.5%纳米SiO₂-2%石灰改良土的无侧限抗压强度、黏聚力和内摩擦角提升最为显著;与素土和纳米SiO₂改良土相比,纳米SiO₂-石灰改良土的水稳性得到显著改善;在纳米SiO₂改良土中,纳米SiO₂主要起到填充土颗粒之间孔隙的作用,纳米SiO₂与石灰联合使用可在土中形成胶结物质、发挥黏结与填充作用、大幅提高土的强度。  相似文献