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1.
Breaking tests on homogeneous earth-rock-fill dams destroyed by overtopping flow are presented. Two types of shear erosion are found: wetting shear erosion and quick shear erosion; the water level-discharge process is divided into “sharp rise and drop of flow” and “slow change of flow” types. Furthermore, overtopping break modes are divided into head-cut erosion and scour breaching mode (Mode 1), shear erosion and collapse breaching mode (Mode 2), and wetting shear erosion mode (Mode 3) based on the main failure types and their coupled mode during dam break. In Mode 1, the downstream slope encounters head-cut erosion at the onset of the breach and expands and undercuts gradually at the development stage; in Mode 2, the dam slope encounters rapid shear erosion and the downstream edge of the crest erodes quickly towards the upstream face at the onset of breach: the breach expands suddenly due to instability and collapse at both sides of the breach in its development stage; in Mode 3, the strength of the dam’s materials continuously decreases by wetting and erosion happens is localised at positions where wetting caused the most strength loss, no obvious breach was developed. Dam breaking time, dam-break flow process, and the maximum discharge flow varied for each breaking mode. Overtopping flow size, materials, height, and initial breach size of dam are important factors influencing breaking mode, by virtue of their changing the relative strength of the relationship between the critical shear stress of dam materials at the edge of the dam crest and the lower parts of its slope, and the given flow’s destruction capacity. Overtopping will cause different manifestations of damage to be exhibited, so modal classification is favourable for safety assessment and preparation of relevant protective measures for protection of earth-rock-fill dam against overtopping. 相似文献
2.
水泥粉煤灰加固有机质土的试验研究 总被引:3,自引:0,他引:3
对于高有机质含量的泻湖相软土,单纯采用水泥不能有效提高该软土的力学性能,因此提出了采用水泥和粉煤灰作为固化剂的加固方法。通过不同水泥掺入量、粉煤灰掺入量和龄期下水泥土的无侧限抗压强度试验,分析了水泥粉煤灰固化土的强度规律和变形规律,探讨了水泥和粉煤灰加固高有机质含量软土的机理。结果表明,粉煤灰对于水泥试块的早期强度影响较小,对后期强度影响较大;粉煤灰最佳掺入量为12%,超过此掺入量水泥土强度反而会降低,粉煤灰水泥土的破坏应变、E50也在粉煤灰掺量为12%时分别达到最低值和最大值。水泥掺加粉煤灰可有效地提高高有机质含量软土的强度。 相似文献
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4.
为探寻适用于黄土地区海绵城市建设的具有较高强度和防渗性能的路基换填材料,通过对掺入水泥、聚丙烯纤维、膨润土的黄土进行强度和渗透性试验,并基于正交试验和田口方法的信噪比分析,获得了改良黄土各掺量的最优配比方案。结果表明:水泥掺量对改良黄土的无侧限抗压强度影响最显著,聚丙烯纤维掺量和长度对其渗透系数影响最大;改良黄土各掺量的最优配比为聚丙烯纤维长度取12 mm、聚丙烯纤维掺量取0.3%、膨润土和水泥掺量分别取3%和8%;在3、7、14 d养护龄期下,最优配比改良黄土的强度和渗透性能均优于不同配比的石灰改良黄土。改良的黄土各掺量最优配比可为黄土地区海绵城市道路建设中的路基处理提供参考。 相似文献
5.
Summary. We attempted to gain some insight into the mechanical properties of poorly consolidated granular rock by preparing and testing synthetic rock specimens in which different cement content and bimodal grain-size distributions were used. We mixed various proportions of fine and coarse sand, Portland cement, and water. The mixture was cast in a mold and left pressure-free during curing, thus ensuring that the final material was poorly consolidated. The specimens were tested in a uniaxial press. During these tests, the static Youngs modulus was measured by performing small stress excursions at discrete intervals along the stress-strain curve. We observed significant non-linear elasticity (i.e., Youngs modulus increased with stress) in all the specimens. As expected, the uniaxial compressive strength increased with increasing cement content. Furthermore, we observed a transition from grain-size sensitivity of strength at cement contents less than 20–30% to grain-size independence above this value. At high cement content, the measured values of Youngs modulus are relatively well explained by a model based on rigid inclusions embedded in a soft matrix. At low cement content, we suggest that modelling the individual cemented grain-to-grain contacts becomes necessary. But this could not be done here for lack of microstructural information. 相似文献
6.
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
7.
Dongyuan Wang David Olowokere Lulu Zhang 《Geotechnical and Geological Engineering》2014,32(5):1275-1289
Uncertainty of properties of improved soft ground with chemical grouting often results in discrepancy between simulated results and observed data and makes prediction for ground subsidence difficult. It also made practice usually adopts unconfined compressive strength of soil–cement mixtures as design control criterion. This paper presents a methodology to interpret the strength and deformation parameters from unconfined compressive strength of soil–cement mixtures for advanced numerical analysis which is widely used in reinforcing the soft ground and pre-supporting excavation. Observed data are used to compare with the simulated results and validate the interpretations. Numerical experiments with two-dimensional finite element model for covered undercutting of large cross-sectional twin tunnel under an existing subway station are presented. Issues with respect to design and construction of excavation that potentially affect the ground surface subsidence are explored. It was found that the ground subsidence caused by tunneling in soil–cement medium under existing subway station is similar to that in a greenfield site but with flatter settlement trough. Unconfined compressive strength of soil–cement mixtures ranging from 1.5 to 2.0 MPa can significantly reduce the settlement to an acceptable control criterion. Settlement magnitude is influenced by pillar width but not obviously by the location of umbrella arch installed in twin tunnels. 相似文献
8.
固化淤泥重塑土力学性质及其强度来源 总被引:3,自引:2,他引:1
对不同水泥掺加量的固化淤泥及其重塑土进行了无侧限抗压强度试验和直接剪切试验,并对固化土和重塑土的应力-应变关系曲线、无侧限抗压强度、黏聚力和内摩擦角进行了比较分析。结果表明:随着水泥量和龄期的增加,固化淤泥的脆性增强,塑性减弱;重塑土的应力-应变关系受水泥量和龄期的影响不大,随着应变的增加,应力增长缓慢,塑性变形非常大。固化土的无侧限抗压强度、黏聚力均随着水泥量和龄期的增加而增大,而内摩擦角则有减小的趋势。重塑土相对于原状土无侧限抗压强度和黏聚力都有较大程度的折减,并且水泥量和龄期越大,折减越多;内摩擦角随着水泥量和龄期的增加有小幅度提高。重塑土强度主要来源于破碎固化土团间的摩擦和咬合作用,因此,在固化淤泥重塑土的实际工程应用中,初始固化土的处理强度不应太高。 相似文献
9.
The Portland cement manufacturing process produces considerable amount of cement kiln dust (CKD). While many facilities are
able to reuse a significant portion of CKD in their production lines, a large percentage is removed as industrial waste and
placed in landfills. Because of the large amount of material potentially available for use, and in an effort to cut disposal
costs, alternative and beneficial uses for CKD need to be investigated. This study presents experimental results of the use
of CKD in modification and stabilization of soils from the Aberdeen and Everett areas in the state of Washington. These soils
are typically wet of the optimum water content and pose problems during geotechnical construction. CKD was added in percentages
of 5, 10, 15, and 20% by dry weight of the soils. Laboratory tests, including drying rate of the soils, Atterberg limits,
standard proctor and unconfined compressive strength were conducted. Results of the investigation showed significant improvement
in drying rate and unconfined compressive strength of the CKD treated specimens as the percentage of CKD increased. It was
also found that lower percentages of CKD can be used for modification purposes, whereas higher percentages of CKD can be used
for both modification and stabilization purposes in geotechnical construction. 相似文献
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11.
软黏土具有压缩性强、承载能力低的特点,实际工程中多用水泥作为固化剂对软黏土进行加固。云母是软黏土中较为常见的一种片状矿物,其含量和颗粒大小会影响水泥加固后的软黏土即水泥软黏土的强度。通过无侧限抗压强度试验和直接剪切试验研究云母含量及目数对水泥软黏土抗压强度及抗剪强度的影响,提出了云母含量、目数与水泥软黏土抗压强度、抗剪强度指标值之间的关系。试验中云母目数设定为10,20,40,80目共4个梯度,云母含量设定为0%、8%、16%、24%、32%共5个梯度。试验结果表明,云母含量的增加以及云母目数的减小会导致水泥软黏土无侧限抗压强度和抗剪强度的降低,且其对无侧限抗压强度的不利影响更为显著。含10目32%云母的水泥软黏土的强度减少量最大,此时无侧限抗压强度为0.33 MPa,是不含云母水泥软黏土的25.5%;黏聚力为76.5 kPa,比不含云母时减少了12.24 kPa;内摩擦角由不含云母时的23.71°降低至21.77°。云母自身的片状形态及其对水泥水解水化作用、离子交换作用的阻碍是造成水泥软黏土强度降低的主要原因。 相似文献
12.
The engineering characteristics of weathered soft rock are important contents of soft rock mechanics. They also play a significant role in compacting deformation, which has been known to exert a significant amount of influence on the stability of highway filling subgrade engineering. In an effort to investigate this aspect of the problem, compacting tests and unconfined compressive strength tests have been carried out on weathered argillaceous slate and pelitic siitstone rocks, which are broken and graded before the test. The testing results indicate that the relationships of both between stress and strain and between axial strain and tangent modulus are exponential relationships; the size of the grain plays some influence on the deformation modulus, whereas the water content impacts the compressive strength greatly, which shows quadratic function; the unconfined compressive strength is linear with the dry density of loose soft rock mixtures. Therefore, the water content must be controlled in both the design and the construction of subgrade engineering of soft rock filling, and at the same time some effective measures should be taken to reach the requirement of compaction. 相似文献
13.
Evangelos I. Stavridakis 《Geotechnical and Geological Engineering》2006,24(2):379-398
Major geotechnical problems in construction involving silty–clayey soils are due to their low strength, durability and high
compressibility of soft soils, and the swell–shrink nature of the overconsolidated swelling soils. Confronted with these problems,
a suitable ground improvement technique is needed, for deep excavations in soft clays, for stability, durability and deformation
control. Cement-stabilization is one of the alternatives. An increase in strength and durability, reduction in deformability
are the main aims of this method. Conventional cement-stabilization methods are used mainly for surface treatment. However,
the use of cement has recently been extended to a greater depth in which cement columns were installed to act as a type of
soil reinforcement (deep cement–soil mixing and cement jet grouting). In situ engineering properties of these silty–clayey soils are often variable and difficult to predict. For this reason cement-stabilization
methods have a basic target to control the aforementioned engineering properties of these clays so that the properties of
a silty–clayey soil become more like the properties of a soft rock such as clayey shale or lightly cemented sandstone. So
cement-stabilization of these soils is essential to control their engineering properties and to predict their engineering
behaviour for construction. In an effort to predict, classify and study the suitability of silty–clayey soils for cement-stabilization
both slaking and unconfined compressive strength tests were carried out on clayey–sand mixtures consisted of two types of
clays, kaolin and bentonite. Finally diagrams were prepared to study the variation of slaking and strength due to compaction,
curing time and cement percentage and also to predict areas of efficient cement-stabilization. 相似文献
14.
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
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16.
The following paper presents an integrated approach of field observations and surface and subsurface data to precisely determine the geodynamic evolution during the Late Miocene of Mateur and Menzel Bourguiba region (northeastern Tunisia). Alternation between compressive and transtensive regime has been generated as a consequence of relative bringing of Africa and Eurasia plates. The first compressive regime controlled the Late Miocene M1 which edified folds and reverse faults. The second one during Late Miocene M2 was transtensive and remobilized E–W right lateral strike slip deep faults which generated the eastern Mateur distensional zone as a NW–SE releasing bend. The last compressive phase during Messinian and Pliocene–Early Quaternary has reactivated the E–W deep faults as right lateral strike slip movement with reverse component, the NE–SW faults were acted with reverse movement and the folding was accentuated. In this study, no deformation is observed affecting Middle Quaternary–actual series, but the compressive regime continues until the present according to the evidence existing in other regions of Tunisia. 相似文献
17.
A. B. Salahudeen A. O. Eberemu K. J. Osinubi 《Geotechnical and Geological Engineering》2014,32(4):923-931
An expansive soil (black cotton soil) treated with up to 10 % cement kiln dust (CKD), a waste obtained from the manufacture of cement, was evaluated for use as a flexible pavement construction material. Laboratory tests were carried out on specimens compacted with British Standard light, British Standard light or standard Proctor (relative compaction = 100 %) energy. Results obtained show that the index properties of the soil improved with CKD treatment. Peak unconfined compressive strength of 357.07 kN/m2 and California bearing ratio (CBR) of 7 % as well as resistance to loss in strength of 44 % were recorded at 10 % CKD treatment. Reduction in the particle sizes with curing period was observed when samples were viewed through the scanning electron microscope. The study showed that CKD can be beneficially used to improve the subgrade of lightly trafficked roads and as admixture in lime stabilization during construction of flexible pavements over expansive soil. 相似文献
18.
高含水率疏浚淤泥新型复合固化材料试验研究 总被引:3,自引:1,他引:2
基于传统水泥固化处理方法,提出了水泥-生石灰-高分子添加剂新型复合固化材料处理高含水率疏浚淤泥的新方法,以期快速降低淤泥含水率并提高固化淤泥的无侧限抗压强度,拓展水泥固化淤泥的含水率范围,达到高效廉价固化处理高含水率疏浚淤泥的目的。通过系列室内试验,探讨了该方法处理后高含水率淤泥的无侧限抗压强度变化规律以及各材料掺入比对强度的影响规律。研究结果表明,水泥掺入比低于7%的新型固化材料处理初始含水率2倍液限的高液限淤泥,早期强度大于0.5 MPa,28 d强度大于1 MPa;固化淤泥强度随龄期、水泥和生石灰掺入比的增大而增大;给出了考虑多因素多水平的无侧限抗压强度预测公式,预测值与实测值基本一致 相似文献
19.
Utilization of bituminous limestone ash from EL-LAJJUN area for engineering applications 总被引:1,自引:1,他引:0
The following work aims at minimizing the environmental impact of the solid wastes (ash) that is produced after the utilization
of the bituminous limestone in thermal power stations and /or retort processes. Limy ash has been prepared from the El-Lajjun
bituminous limestone by direct combustion at 1,200, 950, and 525°C respectively. The laboratory tests have been selected with
respect to construction needs and possible post construction conditions. Utilization of the various types of ash in the stabilization
problematic soils from Jordan as brown soils and the clayey marl has revealed optimum results. The unconfined compressive
strength of the parent brown soil and the clayey marl has been raised from 5 kg/cm2 to 50 and 25 kg/cm2, respectively. The CBR value has been raised from 4.5 to 150% for both problematic soil types. Various mortars and construction
elements can be produced at normal room curing temperature without the use of ordinary Portland cement (OPC). Low quality
sub-base and base course can be mixed with ash to produce cement treated base (CTB) and roller compacted concrete (RCC) without
OPC. Durable pavements, embankments can be constructed with very long life and low cost. CTB and RCC utilizing ash can be
used in dam construction instead of normal soil in earth fill dams. The high alkalinity of El-Lajjun ash is considered as
a disadvantage to be utilized in normal concrete mixes for structural purposes. Ash only can be mixed with aggregates to produce
lean concrete like for blinding purposes to be prepared for foundation activities. 相似文献
20.
水泥混合上海黏土pH值和电导率与强度特性研究 总被引:2,自引:0,他引:2
针对目前钻芯取样、标准贯入试验、荷载试验等水泥搅拌桩的检测方法试验要求高、试验时间长、测试费用高等诸多缺点,提出联合测定水泥土初期pH值与电导率的方式来判断其后期无侧限抗压强度与混合土性状的方法。以上海地区第④层黏性土为研究对象、以水泥掺量为变量,对加固土体的化学性质与其强度增长特性做了试验研究;探讨了pH值和电导率与水泥掺量、养护时间、后期强度之间的关系。试验结果表明,当水泥土初期的pH值和电导率大于分别为11.5和0.09 s/m的临界值时开始产生强度。在此之后强度随着pH值的增长而缓慢增加,但当pH达到11.8时,强度开始随着pH值的增长而迅速增加。电导率与强度变化关系的这些特征可以避免用水泥土初期pH值单一化学指标来判定其后期无侧限抗压强度带来的误差与风险。为判定上海地区黏性土水泥搅拌桩的强度提供试验依据。 相似文献