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1.
The application of cement-stabilized marine clay at high water content (HW-CSC) as land reclamation fill has been receiving increasing attention and popularity. In current coastal development, HW-CSC land reclamation projects begin to advance toward deeper water areas, leading to greater filling heights and thus higher curing stresses acting on the lower portions of HW-CSC. In principle the higher curing stress will improve the strength gain of HW-CSC, but this curing stress effect is not taken into account in current design practice. This study aims to bridge the gap. Fifteen different mixes of HW-CSC are first prepared and cured in consolidation tubes for seven days under various curing stresses. Their strengths and some other post-curing parameters are then tested and analyzed to demonstrate the quantitative effect of curing stress on the strength gain of HW-CSC. Results indicate that the strength gain of HW-CSC is significantly influenced by the curing stress; however, the effect of curing stress cannot be simply replaced by reducing the remolding water content during mixing stage and letting the specimens be cured under atmospheric stress condition. Therefore, it is concluded that the effect of curing stress includes two different components—a consolidation effect and another effect termed the “self-stress” effect in this study. Finally, an empirical relationship accounting for the combined effects of mixing proportion and curing stress is developed for characterization of the strengths of HW-CSCs with different mixing proportions and various curing stresses. The proposed relationship is validated by three independent data groups collected from the literature. This empirical relationship can be helpful in optimization of mixing proportions of HW-CSC used for land reclamation purpose. 相似文献
2.
A fully coupled multi-physics finite element model has been used to conduct a back-analysis of a stope filling case history at the Kanowna Belle (KB) mine in Western Australia. The model captures a number of important characteristics of mine backfill behaviour, including the evolution of strength and consolidation properties with cement hydration, the impact of chemical shrinkage (self-desiccation) and de-saturation. Material parameters for the constitutive model have been calibrated using published laboratory test data. A reasonable match between ideal and actual elements of response as revealed through in-situ measurements of total stress and pore pressure was obtained using these initial parameters. A parametric study was then performed which showed that the backfill strength parameters (friction angle, dilation and cohesion), the chemical volume shrinkage, the rate of cement hydration and the water retention properties all have a significant influence on the calculated states of stress within the stope. 相似文献
3.
尾矿充填主要包括3种类型:尾矿砂浆充填、尾矿糊状充填(paste fill)和废矿石充填(rock fill),其中前面两种充填属于水力充填,第3种属于干式充填。3种充填方法在加拿大的矿山都有应用。压缩强度和渗透性是水力充填材料的关键力学特性,直接影响井下充填的效果。一方面,为了使充填材料具有一定的强度,必须在尾矿砂浆(slurry backfill)材料中添加水泥,其用量非常大,水泥在充填成本中占有很大的比例。另一方面,尾矿砂浆水力充填是利用水力旋流器来分级固体颗粒,颗粒较细的部分将通过溢流派到废矿池中,颗粒较粗的部分回收利用作为井下充填的材料使用,有时充填的尾矿数量不够,需要另外购置砂子混合作为充填材料。如何减少水泥的使用量和从水力旋流器底流增加尾矿砂的细颗粒的固体部分产量,以达到节约充填成本的目的,一直是矿山企业所面临的重要课题。为此,专门研究絮凝药剂对尾矿砂浆充填材料的单轴抗压强度的影响。研究结果表明,絮凝药剂能够大幅度地提高尾矿砂浆充填材料的强度,而且絮凝药剂使用量有一个最优值,使强度达到最大。当过量使用絮凝药剂,尾矿砂浆充填材料的强度则有所降低。 相似文献
4.
Mining backfill is commonly used in underground mines. A critical concern of this practice is to evaluate the pressures and total stresses in backfilled stopes to ensure a safe and economic design of barricades, constructed to retain the backfill. When a slurried backfill is placed in a mine stope, excess pore water pressure (PWP) can instantaneously generate and progressively dissipate. The dissipation of the excess PWP and consolidation lead to the development of effective stresses, which in turn lead to an arching effect in the backfilled stope. Until now, arching effect has been largely considered for stress estimation in dry or submerged backfill. The former corresponds to the final state at the end process of the drainage and consolidation of the backfill with a pervious while the latter with an impervious barricade. However, previous studies have shown that the most critical moment for the stability of barricades is during the stope filling. Therefore, the design of barricades requires a proper estimation of the pressure and total stresses during the filling operation. This in turn needs joint consideration of the arching effect and consolidation of the backfill. In this paper, a new solution is developed to evaluate the pressures and stresses in backfilled stopes during the filling operation of cohesionless backfill by considering the self-weight consolidation and arching effect. The proposed solution is validated by numerical modeling with Plaxis2D. It can thus be used to evaluate the pressures and stresses in backfilled stopes during the stope filling with an impervious barricade. 相似文献
5.
超细全尾砂材料胶凝成岩机理试验 总被引:4,自引:0,他引:4
矿山充填是保护土地资源、生态环境,实现矿山无废开采和消除重大安全隐患的理想途径。以某矿全尾砂为试验材料,在分析该矿全尾砂材料的化学成分、粒径级配组成等基本物理、化学特性基础上,借助XRD能谱分析和电镜扫描(SEM)方法,得到不同条件下的超细全尾砂材料胶凝成岩微观规律。对比以水泥、固结剂1#和固结剂2#分别为胶结剂时充填体的强度结果表明,在灰砂配比、浓度和龄期相同的条件下3种胶结材料充填体的强度大小为:固结剂1#>固结剂2#>水泥;固结剂1#可替代水泥作为矿山全尾砂胶结充填的胶结剂,且价格比水泥便宜,有利于降低矿山充填成本。对不同条件下的充填体强度曲线进行拟合,得到充填体的单轴抗压强度增长规律:在养护龄期28 d之内,充填体单轴抗压强度增长规律随龄期变化基本相同,皆遵循指数函数曲线增长规律;当以固结剂1#、2#分别作为胶结材料时,强度增长规律与水泥为胶结剂时相同;强度增长曲线趋势与灰砂配比、料浆浓度以及养护龄期正相关。 相似文献
6.
This paper reviews the design and application of paste backfill in underground hard rock mines used as ground support for
pillars and walls, to help prevent caving and roof falls, and to enhance pillar recovery for improved productivity. Arching
after stope filling reduces vertical stress and increases horizontal stress distribution within the fill mass. It is therefore
important to determine horizontal stress on stope sidewalls using various predictive models in the design of paste backfill.
Required uniaxial compressive strength (UCS) for paste backfill depends on the intended function, such as vertical roof support,
development opening within the backfill, pillar recovery, ground or pillar support, and working platform. UCS design models
for these functions are given. Laboratory and backfill plant scale designs for paste backfill mix design and optimization
are presented, with emphasis on initial tailings density control to prevent under-proportioning of binder content. Once prepared,
paste backfill is transported (or pumped) and placed underground by pipeline reticulation. The governing elements of paste
backfill transport are rheological factors such as shear yield stress, viscosity, and slump height (consistency). Different
models (analytical, semi-empirical, and empirical) are given to predict the rheological factors of paste backfill (shear yield
stress and viscosity). Following backfill placement underground, self-weight consolidation settlement, internal pressure build-up,
the arching effect, shrinkage, stope volume, and wall convergence against backfill affect mechanical integrity.
An erratum to this article can be found at 相似文献
7.
寒区水泥固化土力学性能影响因素分析 总被引:4,自引:1,他引:3
为了在北方寒区推广和应用水泥固化土建造保暖性房屋和设施农业,采用内蒙古黄河灌区周边典型的粉质土,利用普通硅酸盐水泥固化土体,配制水泥固化土,采用静力机械压实法和人工分层击实法分别制作了Φ50mm×H50mm和Φ39.1mm×H80mm两种不同规格的试件,并进行了无侧限抗压强度室内试验,研究了不同水泥掺入比、不同养护龄期、不同规格及成型方法对水泥固化土无侧限抗压强度的影响,得出了不同试验条件下水泥固化土的强度变化规律.试验结果表明:强度均随水泥掺入比及龄期的增大而增大,三者之间较好地满足空间平面模型,偏回归分析表明,水泥掺入比较龄期对强度的影响贡献更大,两种规格试件的强度之间较好地满足对数关系;不同规格及成型方法的试件对水泥固化土强度的影响规律不同,Φ39.1mm×H80mm试件存在一个临界水泥掺入比与临界养护龄期,当超过这个值时,其强度增长率减小. 相似文献
8.
石灰-水泥复合土增强机制研究 总被引:3,自引:0,他引:3
利用比强度方法分析水泥土及石灰水泥土无侧限抗压强度,对石灰水泥土的增强机制进行了研究。采用内蒙古河套粉质黏土拌制水泥土及石灰水泥土试件,水泥土和石灰水泥土掺入不同量的氢氧化钙、碳酸钙和水泥,并按标准养护28 d,进行单轴抗压试验,测得水泥土及石灰水泥土的无侧限抗压强度值。研究结果表明:石灰水泥土和水泥土中存在化学胶凝和物理填充两大类作用。其中石灰水泥土中存在水化作用、硬凝作用、离子交换及团粒化作用和复合作用等4类化学增强作用;水化作用是水泥土和石灰水泥土强度增长的最主要来源;熟石灰能够抑制水化作用。 相似文献
9.
In order to recycle the incineration fine bottom ash generated from municipal solid waste as a fine aggregate construction
material(<4.75 mm), a series of uniaxial compression tests were carried out according to the mixing ratio of bottom ash, the
curing temperature, the water–cement ratio, the mixing ratio of expanded poly styrene (EPS), and the curing time. As the results
of tests, the compression strengths cured 28 days of all specimens prepared with different mixing ratios are ranged between
87 and 220 kg/cm2. The water content of the hardened cement mortar is not much different with the curing time. Also, the water content is increased
with increasing the mixing ratio of bottom ash, the water–cement ratio, and the mixing ratio of EPS. The unit weight of the
hardened cement mortar is decreased with increasing the mixing ratio of bottom ash and the mixing ratio of EPS. The compression
strength of the hardened cement mortar is decreased with increasing the mixing ratio of bottom ash. The compression strength
of the hardened cement mortar cured at 30 ± 2°C and 40 ± 2°C is bigger than that of the cement mortar cured at normal temperature
(20 ± 2°C). However, the compression strength of the hardened cement mortar cured at 30 ± 2°C is bigger than that of the cement
mortar cured at 40 ± 2°C. The compression strength is increased at the range from 0.55 to 0.6 of water–cement ratio, and then
the compression strength is decreased over 0.65 of water–cement ratio. Meanwhile, the compression strength of the hardened
cement mortar is decreased with increasing the mixing ratio of EPS. 相似文献
10.
This paper studies the depth variability of uniaxial compressive laboratory test results on intact Toki granite (i.e., sound
rock without macroscopic fractures) from the Shobasama and Mizunami Construction Sites, Japan. Some of the depth variability
observed in the laboratory results can be indirectly attributed to the high fracture frequency of the “upper highly fractured
rock domain” from which some of the samples were taken. For samples taken from the “lower sparsely fractured rock domain,”
however, the uniaxial compressive strength of the granite seems to be very strongly correlated to the level of in situ rock
stress (i.e., maximum shear stress) determined by measurement results obtained from hydrofracturing tests. The correlation
between the laboratory results and the level of in situ stress is explained by the damage due to the complex stress path that
the cores undergo during drilling, besides the stress concentrations at the drill-bit/rock contact, which can also affect
the microcracking of the samples. An attempt to adjust laboratory test results to estimate the in situ intact rock strength
of Toki granite based on its correlation with in situ stresses was carried out. 相似文献
11.
基于有效固结应力法确定结构性黏性土不排水抗剪强度 总被引:3,自引:0,他引:3
由于结构性的存在使得很多天然黏性土的强度和变形特性不同于重塑土和非结构性土。首先回顾了适用于确定重塑土和非结构性土不排水抗剪强度的有效固结应力法,并推导了相应的方程。在此基础上,对于结构性黏性土,采用两段不同斜率(内摩擦角正切)和截距(黏聚力)的直线模拟其抗剪强度包络线,建立了确定其不排水抗剪强度的有效固结应力法方程;当有效应力小于结构屈服应力时,有效固结应力方程中有效应力部分需乘以0.8的修正系数;只要已知剪切前的有效应力,利用相应的有效固结应力法公式,可确定结构性土体的不排水抗剪强度。利用连云港结构性软黏土的等压固结三轴试验数据,验证了有效固结应力法的适用性。分析表明:对于连云港软黏土的不排水抗剪强度,有效固结应力法的计算结果与试验结果吻合较好;对于结构屈服应力,有效固结应力法的预测结果与试验数据点的拟合结果有一定偏差,但并不明显。 相似文献
12.
超细尾砂已成为充填材料的主要来源。为了便于充填料浆配合比设计与强度预测,基于超细料浆微观结构,提出用固体填充率表征充填料浆结构密实程度。选用某矿山超细尾砂进行了63组配合比强度试验。研究结果表明:固体填充率和水灰比与充填体无侧限强度分别呈指数函数和负幂函数关系。采用Pearson理论对试验样本进行相关性分析,结果表明:固体填充率与水灰比相互独立。在此基础上,建立了超细尾砂胶结充填体双变量强度计算模型,模型计算值与试验值的误差在7%以内。进行了超细尾砂胶结体强度随养护时间增长的试验,基于试验数据拟合规律,提出了强度龄期数学模型,建立了三变量强度计算公式。模型能准确预测矿山充填体强度,且能有效指导矿山充填料浆设计。 相似文献
13.
A. Arulrajah M. W. Bo H. Nikraz A. S. Balasubramaniam 《Geotechnical and Geological Engineering》2007,25(6):647-656
In situ dissipation tests provide a means of evaluating the in situ coefficient of consolidation due to horizontal flow and
hydraulic conductivity in horizontal direction in marine clays formation. Dissipation tests by means of piezocone were utilised
in the characterisation of the coefficient of consolidation due to horizontal flow and the hydraulic conductivity in horizontal
direction of Singapore marine clay at Changi. Piezocone dissipation tests were carried out prior to reclamation as well as
after ground improvement with vertical drains to compare the changes in the coefficient of consolidation due to horizontal
flow and hydraulic conductivity in horizontal direction prior to and after ground improvement. The quasi-static piezometric
pressures from the dissipation tests were compared with piezometric pressures from piezometers to determine their possibility
of future use as an alternative to piezometers. Post-improvement CPTU dissipation tests were carried out in the treated “Vertical
Drain Area” as well as in an adjacent untreated “Control Area” for comparison purposes. This study provides support for the
use of piezocone dissipation testing methods for the determination of the coefficient of consolidation due to horizontal flow
and hydraulic conductivity in horizontal direction of marine clays in the region as well as an alternative to piezometer instrumentation
for monitoring of piezometric pressure during consolidation. 相似文献
14.
尾砂胶结充填体损伤模型及与岩体的匹配分析 总被引:14,自引:0,他引:14
分别对灰砂配比为1:4,1:8,1:10和1:12的4种尾砂胶结充填体进行了力学试验,得出了其应力-应变曲线。分析了不同配比充填体变形与破坏特征,用损伤力学建立了4种不同配比充填体损伤本构方程。经验算对比,所建立的损伤本构方程与试验结果吻合。尾砂胶结充填体损伤研究表明,不同配比的充填体表现出不同的损伤特性,充填体配比越低,达到峰值应力时的损伤值越小;峰值应力后,损伤增长越快,破坏过程越突然。根据岩体开挖释放能量与充填体蓄积应变能相近的原则,探讨了充填体与岩体的合理匹配。充填体与岩体的匹配系数与原岩应力、岩体弹性模量、充填体弹性模量及充填体损伤参数相关。为了便于工程实际应用,对充填体力学试验结果进行了回归分析,得出了充填体强度设计公式,并研究了深部矿床不同开采深度所要求的充填体强度。 相似文献
15.
Recently in China, soil–cement is widely used to improve the soft ground in the highway construction engineering. Literature
studies are mainly investigating the mechanical properties of the soil–cement, while its properties of the electrical resistivity
are not well addressed. In this paper, the properties of the electrical resistivity of the reconstituted soil-cement and the
in situ soil–cement columns are investigated. The test results show that the electrical resistivity of the soil–cement increases
with the increase in the cement-mixing ratio and curing time, whereas it decreases with the increase in the water content,
degree of saturation and water–cement ratio. A simple equation is proposed to predict the electrical resistivity of soil–cement
under the condition of the specified curing time and water–cement ratio. It is found that the electrical resistivity has a
good relationship with the unconfined compression strength and blow count of SPT. It is expected that the electrical resistivity
method can be widely used for checking/controlling the quality of soil–cement in practice. 相似文献
16.
矿山充填开采正逐步向寒区甚至永久冻土区发展,这些区域含盐地下水分布非常广泛。同时,极端寒冷条件下往往需要向充填材料中加入一些防冻盐以防止料浆在输送过程中发生冻结。通过室内测试分析了?6 ℃环境下不同盐分(NaCl)膏体充填体力学特性(强度和初始弹性模型)随时间演化特征。利用单轴压力机测得了龄期为7、28、90 d膏体充填体的强度和初始弹性模量,结果表明NaCl的加入会降低冻结充填体的强度,其影响程度取决于胶结料类型。试样的强度随着养护时间的增加而增大。此外,不论盐分浓度、养护时间和胶结料类型,试样的强度与初始弹性模量之间存在显著的线性关系。该研究结果可以为寒区含盐膏体充填技术的开展提供一些依据。 相似文献
17.
水泥-黄土注浆充填材料的试验研究 总被引:1,自引:0,他引:1
采空区危害巨大,目前主要采用注浆充填方式进行处置。水泥-粉煤灰浆液在采空区治理中得到了广泛的应用,但在一些采空区治理工程中,由于缺乏粉煤灰,需要寻找其他低成本的注浆材料。水泥-黄土浆液具有就地取材、工艺简单等优势,是替代水泥-粉煤灰浆液的首选。本文以陕西泾阳、甘肃兰州、山西吕梁黄土为研究对象,通过大量水泥-黄土浆液黏度、结石率、凝结时间、结石体强度等性质的试验,研究了水泥掺量、水固比、黄土类型、水玻璃掺量等因素对水泥-黄土浆液性质及其结石体强度的影响。试验结果表明:随黄土掺量的增加,结石体强度、浆体流动性降低,而凝结时间延长; 水泥-黄土浆液结石体早期强度较低,而后期强度增长较大; 黄土的地域性分布,造成水泥-黄土浆液性质差异较大,黄土的粒径越粗,结石体的强度越高; 与离石黄土浆液相比,马兰黄土浆液性能稳定,强度较高,更适宜于采空区充填注浆; 水玻璃的掺入,使浆液黏度增大,结石率提高,凝结时间缩短,强度减小。本研究成果为采空区注浆设计和施工提供了新的思路。 相似文献
18.
Shahsavari Mohammad Jafari Mohammadamin Grabinsky Murray 《Geotechnical and Geological Engineering》2022,40(4):2319-2338
Geotechnical and Geological Engineering - Pore water pressure and effective stress development within cemented paste backfill (as one of the most popular local and regional underground mining... 相似文献
19.
采用水泥固化海泥(CSMC)作为围海垦地填料正在被广泛关注。由于水化放热,当环境温度较高时大体积填筑的CSMC内部实际养护温度可能明显高于室内标准养护温度(≈ 20 ℃),这必然会对CSMC的强度发展产生影响,但目前工程实践中并未考虑这一温度差异的影响。因此,基于室内试验,测试了不同配合比CSMC试样在不同养护温度下的强度发展过程,并重点探讨了养护温度对CSMC强度发展的影响规律及其内在机制。结果表明:养护温度对CSMC强度发展影响显著,高的养护温度不仅会显著提高CSMC的早期强度,而且会比较明显地提高CSMC的晚期强度,这就意味着在CSMC垦地工程实践中考虑养护温度的影响是十分必要的。鉴于此,文中最后给出了如何在CSMC垦地工程实践中考虑养护温度对强度发展影响的建议和设计流程。 相似文献
20.
Summary In the mining industry today there is some caution about using fine tailings as a backfill material. Traditionally, hydraulic backfill has only used the coarse fraction of tailings, excluding the fines by a classification process. With the development of paste fill, the percentage of fine tailings being sent underground has increased, but still remains low due to the high percentages of sand and gravel which usually make up these fills. Sand and gravel have been added to paste fills to aid pumpability and to increase fill strength and stiffness. This leaves the remainder of fine tailings destined for surface disposal. The main focus of this paper is to evaluate what effect the addition of fine gold mill tailings in the form of agglomerated tailings pellets has on the strength and stiffness characteristics of a total tailings paste fill. The purpose is to create a high modulus fill which is made up entirely of fine tailings. A constant slump design of 20 cm (8 in) was used for each mix. Various binder dosages, curing periods and combinations of pellet to tailings ratio were studied. Raw fill slump and density, and cured fill compressive strength and modulus of elasticity were also examined. Results from the above study indicate that agglomerated tailings paste fill (ATPF) has superior strength and stiffness characteristics. Compressive strengths were enhanced while the modulus of elasticity values was tripled when compared to total tailings paste fills of the same binder content and consistency. ATPF minimizes the surface disposal of tailings and maximizes the utilization of fine tailings underground as a useful backfill material. 相似文献