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1.
含粘粒量黄土抗震陷性能的试验研究 总被引:1,自引:0,他引:1
对甘肃含粘粒黄土粘粒含量不同的原状土样进行了室内动三轴试验、激光粒度分析试验、化学分析和电镜扫描试验,对比分析试验结果后得出,粘粒含量不同,可引起黄土动力稳定性的变化;动剪应力强度与粘粒含量并非呈单调增加关系,而呈抛物线型;含粘粒的黄土,在同一固结比时,抗震陷性能最低点在粘粒含量16%~17%之间。 相似文献
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邯郸与太原两地粉土动力特性的试验研究 总被引:2,自引:0,他引:2
对邯郸5个工程场区和太原1个工程场区的粉土进行了循环荷载幅值为不规则变化的动模量试验。试验研究发现,粉土的动模量衰减的比砂土慢;其动模量衰减到最大动模量的85%时,开始表现出塑性特征,因此,在动模量衰减到最大动模量的85%之前降低循环动荷载的幅值,动模量仍能大部分回到初始值。粘粒含量的变化使粘粒在粉土中表现出不同的作用,当粘粒含量小于10%时,动强度随粘粒含量的增加而降低;当粘粒含量大于10%后,动强度随粘粒含量的增加而增加。 相似文献
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工程实践和理论研究中常用全岩和粘粒中粘土矿物绝对和相对含量。对同一样品探求两者关系,便于数据对比,有利于工程应用。以采自香港九龙的2处边坡3个探坑中51个全风化花岗岩样品为例,作者用同一套仪器、测试方法,先后采用了颗分法测粘粒质量百分比、物理化学方法测比表面积、XRD方法测矿物成分,分别得出了全岩和粘粒中粘土矿物的绝对含量和相对含量,以及用粘粒质量百分比乘以相对含量得出的换算含量。另外还将全岩XRD矿物成分同薄片统计结果进行了相关分析。对粘土矿物绝对含量基本为20%~45%的全风化花岗岩,对比分析不同含量结果表明:全岩中的某些粘土矿物,如高岭石、蛭石的绝对含量远大于换算含量;不同样品中高岭石和蛭石的相对含量变化幅度远大于它们在全岩中绝对含量变化,两者变化呈现某种一致性;全岩中粘土矿物含量远大于粘粒(粒径<2μm和<5μm两个界限)的含量。后两者相对而言变化基本一致,差值不大;同全岩中粘土矿物含量相关性较好的是比表面积;同薄片统计结果相比,全岩XRD粘土矿物含量受对风化矿物处理不确定性的影响,结果往往偏大。 相似文献
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矿物风化对黄土区土壤有效硅含量的控制作用--以陕西省关中-陕北地区为例 总被引:1,自引:0,他引:1
利用XRD、粒度分析、土壤风化模拟试验等方法,对黄土区土壤有效硅含量分布、土壤机械组成、粘粒矿物种类及含量分布、土壤溶液pH值和土壤矿物风化过程中硅的析出规律进行研究。从陕北干旱区到关中半湿润区,土壤中蛭石含量从0.18%升高到1.60%;高岭石从0.45%升高到1.84%,相应的土壤有效硅含量从122.62×10-6升高到463.95×10-6。土壤有效硅含量与粘粒矿物总量呈正比,与土壤溶液pH值成反比,这与南方水田水稻土情况完全不同。模拟实验证实土壤中存在的游离硅是硅酸盐矿物异成分溶解的结果。研究区土壤风化作用强度规律性变化是造成区内土壤有效硅含量变化的主要原因。 相似文献
7.
全风化花岗岩化学及矿物成份在全土和粘粒中的不同表征 总被引:1,自引:0,他引:1
对全风化花岗岩化学和矿物成份的测试常用全土和粘粒部分(粒径<2μm)分别进行。业已发现两者由于物质组成和结构特征的差异,对土工程地质性质所起作用不同。本文给出了6个全风化花岗岩样品的全土和粘粒部分筛分法和移液管法测定粒度成份,用X荧光光谱仪做全量化学分析,及XRD矿物学分析的结果。对比这两部分数据发现,属于含砾土的这些样品化学成份的变化同矿物一致,尤其是同粘土矿物成份含量变化很一致。同全岩相比,粘粒化学成份中的SiO2减少了近50%,K2O含量也降低,而Al2O3、Fe2O3和H2O+都明显升高。粘粒中氧化物相对含量升高者居多;全岩矿物成份以石英、粘土矿物和长石为主,粘粒中埃洛石和高岭石占大多数,其次为伊利石;粒度成份、化学成份和矿物含量相关性比较明显的是:石英和角砾正相关,和砂粒负相关,长石和砂粒正相关,粘土矿物含量和Al2O3、烧失量(LOI)和埃洛石含量正相关。 相似文献
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以我国7个不同气候带下的森林土壤为研究对象,从不同温度及降水对森林土壤的影响方面入手,通过野外取样和室内分析相结合的方法,测定其阳离子交换量、土壤颗粒组成、化学组成特征情况,进行选择性溶解分析,并使用X射线衍射分析方法,分析不同森林土壤粘粒矿物XRD物相特征,深入探讨在不同气候带下、受不同温度及降水影响的森林土壤的粘粒矿物的组成特点及含量变化.结果 表明,7种供试森林土壤除雾灵山外,其他森林土壤粘粒含量均达到30%以上,雾灵山为壤土,西双版纳为砂质粘壤土,其他森林土壤为粘壤土.7种供试森林土壤粘粒化学组成以SiO2、Al2O3和Fe2O3为主,Sa值大小顺序为蛟河>漠河>太白山>雾灵山>天童山>西双版纳>黄连山.由北到南随着温度及降水的增加,森林土壤的Sa值、Saf值呈逐渐减少的趋势,土壤风化程度增加.寒温带漠河、中温带蛟河、暖温带雾灵山、北亚热带太白山的粘粒矿物以2:1型伊利石为主,中亚热带天童山、南亚热带黄连山、热带西双版纳的粘粒矿物以1:1型高岭石为主.随着温度及降水的升高,伊利石含量呈现逐渐减少的趋势,蒙脱石有所下降,高岭石有所上升,供试土壤粘粒矿物随着气候的变化表现出一定的规律性. 相似文献
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全风化花岗岩三大矿物组分——石英、长石和粘土矿物含量变化情况怎样?粘土矿物含量变化幅度多大?以香港九龙3个探坑中采到的18箱(边长30cm的立方体)样品为例, 将1箱样品的不同区分别取样后的XRD鉴定结果(包括全岩3种主要矿物成分变化、粘粒中高岭石和伊利石变化范围值)进行对比, 结果发现它们中矿物成分含量变化范围一般为10%~20%.高岭石相对含量变化幅度大于伊利石, 粗粒结构样品变化值大于细粒样品值.对同一样品不同分析人员得出的结果差别很大.分析后认为样品自身的非均质性和分析人员经验不同, 都可造成粘土矿物含量的明显差别.为进一步分析XRD鉴定样品间矿物成分差异值的可靠性, 还将XRD结果同薄片统计结果进行了对比.结果发现来自石硖尾样品中的石英含量普遍较高, 长石含量普遍较低, 而粘土矿物含量在石硖尾和观塘都有高有低.从两者差值看, 矿物含量相差0%~35%.这项研究说明全风化花岗岩一定范围内的非均质性程度同风化物中矿物是原矿物还是粘土矿物的认定一起对最终结果产生很大影响. 相似文献
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The liquefaction of clayey soils under cyclic loading 总被引:4,自引:0,他引:4
This paper seeks to investigate the liquefaction of clayey soils, a phenomenon that has been the trigger for many natural disasters in the last few decades, including landslides. Research was conducted on artificial clay-sand mixtures and natural clayey soils collected from the sliding surfaces of earthquake-induced landslides. The undrained response of normally consolidated clayey soils to cyclic loading was studied by means of a ring-shear apparatus. For the artificial clay-sand mixtures, it was found that the presence of a small amount of bentonite (≤ 7%) would cause rapid liquefaction, while a further increase in bentonite content (≥ 11%) produced the opposite effect of raising soil resistance to liquefaction by a significant degree. It was demonstrated that the bentonite-sand mixture was considerably more resistant to liquefaction than the kaolin-, and illite-mixtures, given the same clay content. The test results of plastic soils revealed the significant influence of plasticity on the liquefaction resistance of soil. The microfabric of clayey soil was investigated by means of a scanning electron microscope. The analysis showed that the liquefaction potential of soil was strongly related to certain particle arrangements. For example, soil vulnerable to liquefaction had an open microfabric in which clay aggregations generally gathered at the sand particle contact points, forming low-strength “clay bridges” that were destroyed easily during cyclic loading. On the other hand, the microfabric of soil that was resistant to liquefaction appeared to be more compact, with the clay producing a matrix that prevented sand grains from liquefying. In the case of the natural soils, the obtained results indicated that their cyclic behavior was similarly influenced by factors such as clay content, clay mineralogy and plasticity. The relation between the liquefaction potential of natural soil and its microfabric was thus also established. On the basis of the obtained results, the authors posited an explanation on the mechanism of liquefaction for clayey soil. 相似文献
12.
Clay-bearing Upper Pliocene red clastics and Quaternary alluvial deposits occupy the Ankara basin. The clayey levels of the Upper Pliocene deposits, referred to as Ankara clay, is considered as a source for compacted clay liners due to their low coefficients of permeability and widespread distributions throughout Ankara. This study investigates the geological, geotechnical and mineralogical properties of the founding clayey soils at two sites of the Ankara region. The geotechnical index properties along with the hydraulic conductivities of the clayey soil samples collected from these sites were determined. A mathematical relation between the clay mineralogical content and hydraulic conductivity was established. The results of this investigation show that, from a geotechnical point of view, Ankara clay may be regarded as a highly suitable material for a compacted clay landfill liner given that its mineralogical compatibility with leachate is confirmed. 相似文献
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Shahid Azam 《Geotechnical and Geological Engineering》2007,25(3):369-381
Soils containing expansive clays undergo swelling that can be both detrimental and beneficial in various applications. In
the Arabian Gulf coastal region, natural heterogeneous soils containing clay and sand (tills, shales, and clayey sands) support
most of the civil infrastructure systems. Likewise, mixes of clay and sand are used for local earthwork construction such
as roads and landfills. A clear understanding of the swelling behaviour of such soils is pivotal at the outset of all construction
projects. The main objective of this paper was to understand the evolution of swelling with increasing clay content in local
soils. A theoretical framework for clay–sand soils was developed using phase relationships. Laboratory investigations comprised
of mineralogical composition and geotechnical index properties of the clay and sand and consistency limits, swelling potential,
and morphology of clay–sand mixes. Results indicated that soil consistency of mixes of a local expansive clay and an engineered
sand depends on the weighted average of the constituents. Mixes with 10% clay through 40% clay capture the transition from
a sand-like behaviour to a clay-like behaviour. Influenced by the initial conditions and soil matrix, the swelling potential
of the investigated mixes correlated well with soil plasticity (SP(%) = 0.16 (I
p)1.188). The parameters sand void ratio and clay–water ratio were found to better explain the behaviour of blended clay–sand soils. 相似文献
14.
Shear strength and pore-water pressure characteristics of sandy soil mixed with plastic fine 总被引:1,自引:0,他引:1
Recent earthquake case histories have revealed the liquefaction of mixtures of sand and fine particles during earthquakes. Different from earlier studies which placed an emphasis on characterisation of liquefaction in terms of the induced shear stress required to cause liquefaction, this study adopted a strain approach because excess pore-water pressure generation is controlled mainly by the level of induced shear strains. The current study includes the results of a set of laboratory tests carried out on sand specimens with the same relative densities and variation in the plastic fines (kaolinite or bentonite) contents ranging from 0 to either 30 % and consolidated at mean confining pressure of 100, 200 and 300 kPa using static triaxial test apparatus, in order to study the influence of fine content and other parameters on the undrained shear strength and liquefaction potential of clayey sand specimens; also, pore-water pressures in the specimens are discussed. Results of tests show that the peak strength decreases as the fines (kaolinite or bentonite) content increases up to a threshold content of fines (FCth) after which, increases in plastic fine content lead to improve the peak shear strength of specimens, and also the ultimate steady-state strength has been improved due to the increased in plastic fines content. Also, pore pressure build-up in clayey sands is generally slower than that observed in pure sand. 相似文献
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《Chemie der Erde / Geochemistry》2015,75(3):389-401
In the present study the origin of clay deposits occurring in an inland platform, in central Portugal, was investigated by their mineralogical and chemical composition. The clay deposits, exploited for ceramic industry are composed of silt-clay facies, the Monteira Member and the Arroça Member, which are assigned to the Coja Formation (Paleogene) and the Campelo Formation (Miocene), respectively. These clayey facies show almost compositional homogeneity, especially concerning texture. The mineralogical composition of the Monteira Member displays slightly higher content in smectite and interstratified clay minerals, which is supported by the chemical composition of samples analyzed. Both members present similar REE patterns, displaying an intense weathering record and little variation in the source area composition. Minor element geochemistry suggests low content in heavy minerals and transition metals. REE patterns and ratios of geochemical parameters support the dominant metasedimentary provenance, with a granite source contribution and also mature recycled sediments of continental origin. The study results’ suggest that the clays of these two members have the same source in terms of lithology and recycled sediments from the Hesperian massif. During the deposition of the Arroça Member, a major remobilization of the Monteira Member is suggested, explaining the geochemical similarity of both facies. 相似文献
16.
We have examined microstructures, mineralogical composition, geochemical alteration, and texture of four selected fault rock samples from the Deep Geodynamical Laboratory (DGLab) Gulf of Corinth project using optical microscopy, cathodoluminescence microscopy (CL), scanning electron microscopy (SEM), transmission electron microscopy (TEM), and synchrotron X-ray diffraction measurements. The fault core is composed of red and gray clayey gouge material and surrounded by a damage zone of brecciated limestones. Pressure solution features, calcite veins and calcite clasts in the breccia and gouge material attest the presence of paleo-fluids and fluid-driven mass transfer during deformation. Differences in CL-colors between the matrix and calcite vein cement and inside the vein cement suggest repeated infiltration of fluids with different composition from various sources (formation water and meteoric water). Twin lamellae densities estimated in calcite veins are used as paleo-piezometer. The deduced differential stress is ∼140 ± 70 MPa for the older vein generation and appears to be higher than stress for the youngest veins (45 ± 23 MPa). In spite of the relatively small clay content in both samples, newly formed clay minerals have been observed in gray as well as red clayey gouge material. Differences between gray and red clay gouge material are found in fault rock composition, porosity and clay fabric. The proportion of chlorite in the red gouge is significantly less than that in the gray gouge whereas the initial porosity is significantly higher than in the gray gouge material. The detection of a well-oriented clay fabric in red clay gouge samples is unique in comparison to other major fault zones. 相似文献
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The combined effect of clay and moisture content on the behavior of remolded unsaturated soils 总被引:2,自引:0,他引:2
Naser A. Al-Shayea 《Engineering Geology》2001,62(4):319-342
The behavior of unsaturated clayey soil is highly influenced by the coupled interaction between water and clay content. Various aspects of the behavior of artificial clay–sand mixtures with variable water content were experimentally studied. Laboratory tests were utilized for the determination of consistency limits, the stress–strain relationship, strength parameters, hydraulic conductivity, and volume change characteristics for various combinations of water and clay content in soil mixtures.
Results presented for various clay–sand mixtures include: new normalized consistency limits; the combined effect of clay content and water content on the stress–strain relationship and on the strength parameters (c and φ); and the effect of clay content on hydraulic conductivity and swelling potential. The cohesion of clayey sand is found to increase with increasing water content to a certain limit, above which it decreases. The angle of internal friction for clayey sand is found generally to decrease with increasing water content. The degree of saturation is found to be better than the water content in explaining the strength behavior. The hydraulic conductivity sharply decreases with increasing clay content up to 40% beyond which the reduction becomes less significant. Simple empirical equations are proposed for predicting the swelling potential of clayey soils as a function of either the clay content or plasticity index. 相似文献
18.
Thomas Mutschler Utz Kramar Maximiliano R. Vergara Theodoros Triantafyllidis 《Rock Mechanics and Rock Engineering》2013,46(4):835-847
The fraction of swelling-type clay minerals (smectites) is a first measure to estimate the swelling potential of natural rocks. This swelling potential is only activated if water can be incorporated in the sheet silicates. The samples studied in this work are volcanic rocks from the Southern Andes. According to the petrographic and mineralogical studies, the rocks are characterized as vulcanite with high content of smectite. Undisturbed samples showed minor swelling behaviour in conventional swelling tests, although X-ray diffraction and differential thermal analysis revealed swelling clay contents of more than 70 % in some samples. Powder swelling tests were performed on ground and recompacted rock samples. The results of these tests show a better agreement with those expected according to the mineralogical composition of the samples. The reason for the non-activation of the swelling potential in undisturbed samples was suspected to be the influence of the iron-oxide/hydroxide content, which was on average around 11 %. Scanning electron microscope images showed that the edge terminations of the clay particles are coated with hematite. The hydrophobic properties of hematite impede the access of water between the interlayers of the clay minerals and, in addition, hematite cementation prevents the expansion. In a further series of swelling tests water was replaced by a reducing solution (0.1 molar hydroxylammonium chloride) which removes the Fe-oxide coating. It can be shown that thus the swelling potential of the clay minerals in such undisturbed rocks can be activated. 相似文献
19.
橡胶质轻、耐磨、渗透性好、减振性能优良,橡胶颗粒与砂土混合作为土工填料可被用于边坡、路基和垃圾填埋场中。通过室内动三轴试验研究了不同橡胶含量混合土的动强度特性及动孔压发展特性。结果表明:橡胶质量含量越高,混合土的抗液化强度越高,且混合土的液化强度曲线符合乘幂函数关系;考虑橡胶质量含量的影响,得到了归一化混合土液化强度曲线;初始应力比和橡胶含量对混合土动孔压比发展具有明显影响,建立了不同试验条件下动孔压比发展模型。试验发现,当初始动应力比超过0.4时,10%橡胶含量的混合土出现明显橡胶颗粒向上迁移现象。基于颗粒细观接触和颗粒运动状态,揭示了橡胶颗粒迁移机制。 相似文献
20.
Jianxiu Wang Yansheng Deng Yule Shao Xiaotian Liu Bo Feng Linbo Wu Jie Zhou Yao Yin Na Xu Haihua Peng 《Environmental Earth Sciences》2018,77(12):471
Medium-coarse sands (CS) were dredged and exhausted in land reclamation. However, the remaining silty-fine sands (FS) were wasted. The liquefaction behavior of dredged silty-FS and the possibility of utilizing the remaining silty-FS as dredger fill source for land reclamation should be investigated. Cyclic consolidation-undrained triaxial tests were performed to investigate the liquefaction resistance of dredged silty-FS under different influencing factors. The cyclic stress ratio (CSR) of dredged silty-FS increased with the increase in initial relative density and consolidation stress ratio and decreased with the increase in silt content and consolidation stress. The CSR first decreased with the increase in clay content up to a threshold value and increased with the increase in clay content. A regression model was created to estimate the relationship between CSR and silt content, clay content, initial relative density, consolidation stress, consolidation stress ratio, and cyclic resistance ratio. Response surface methodology (RSM) was employed to investigate the mutual influence among the five independent variables. On the basis of cyclic triaxial tests, particle flow code models were introduced to investigate the microscopic internal fabric changes of dredged silty-FS and the influence of extended factors on liquefaction. The average microscopic contact force and coordination number between particles controlled the macroscopic mechanical behavior of sands. Sand liquefaction was due to the cumulative loss of coordination number under cyclic loading. The average contact force between particles was linearly decreased to 0 and the coordination number sharply decreased when the sample reached initial liquefaction. On the basis of numerical tests, CSR increased with the increase in D50 and vibration frequency. The influence of vibration frequency was relatively small. In addition, the CS–FS and CS–FS–CS combination layers showed greater liquefaction resistance than the FS layer. In the filling process, the interbed of FS and CS improved the liquefaction resistance of dredged silty-FS to a certain extent. 相似文献