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1.
A. I. M. Ismail M. S. Elmaghraby H. S. Mekky 《Geotechnical and Geological Engineering》2013,31(5):1465-1476
Lightweight aggregate concretes are widely incorporated in construction and development. This study presented an experimental investigation on the engineering properties of volcanic pumice lightweight aggregates concretes. Three groups of lightweight concretes: 1—coarse pumice aggregates (2–6 mm), 2—course pumice aggregates (2–6 mm)/sand size pumice aggregates and 3—course pumice aggregates (2–6 mm)/sand fraction were built and the physical/mechanical aspects of them were studied. The results of the compressive strength, density, water absorption, pH and shrinkage showed that these lightweight concretes were affected by the type of aggregates, the cement paste and the interfacial zone between cement and aggregates. One grain size pumice (2–6 mm) showed best compressive strength (65 kg/cm2), density of 0.60 g/cm3, linear shrinkage 0.4 % and high water absorption 29.73 %. Strength minerals represented by calcium-silicate-hydrate (CSH) and calcium-aluminate-hydrate (CAH) leading the concrete strength. 相似文献
2.
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 retorting processes. 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
production of lightweight concrete block has revealed optimum results. The compressive strength of various ash–glass sand
mixes has ranged between 19 and 76 kg/cm2 at 28 days. The compressive strength of ash–tuff mixes has ranged between 54 and 63 kg/cm2 at 28 days. Ultra light mixtures using ash–polyester with a density of 0.88 kg/m3 and a compressive strength of 21 kg/cm2 at 28 days are produced at normal room curing temperature without the use of ordinary Portland cement. The high alkalinity
of El-Lajjun ash is considered a disadvantage when utilized in normal concrete mixes for structural purposes. Ash only can
be mixed with aggregates to produce lean concrete for blinding purposes for use in foundations. 相似文献
3.
Heavy metal chemical fractionation and immobilization in lightweight aggregates produced from mining and industrial waste 总被引:1,自引:0,他引:1
B. González Corrochano Ph.D. J. Alonso Azcárate Ph.D. M. Rodas Gonzalez Ph.D. 《International Journal of Environmental Science and Technology》2011,8(4):667-676
The fractionation of five heavy metals in a washing aggregate sludge, a sewage sludge, a clay-rich sediment, the mixtures of these materials and the lightweight aggregates manufactured with them has been determined by applying the optimized European Community Bureau of Reference sequential extraction procedure in order to evaluate the effects of the heating process on the extraction of these elements. Additionally, preparation of eluates by aggregate leaching has been performed in accordance with the UNE-EN-H44-3 standard. The availability of all the studied heavy metals has been reduced by the thermal treatment, since most of the heavy metals have become part of the undigested material in the lightweight aggregates. Nickel has been the heavy metal that has presented the highest concentration in the eluates obtained after completion of the single extraction procedure in the lightweight aggregates. The studied lightweight aggregates may be used in lightweight concrete manufacturing from the standpoint of heavy metal leaching. 相似文献
4.
This work examines the environmental and geochemical impact of recycled aggregate concrete produc-tion with properties representative for structural applications.The environmental influence of cement content,aggregate production,transportation,and waste landfilling is analysed by undertaking a life cycle assessment and considering a life cycle inventory largely specific for the region.To obtain a detailed insight into the optimum life cycle parameters,a sensitivity study is carried out in which supplementary cementitious materials,different values of natural-to-recycled aggregate content ratio and case-specific transportation distances were considered.The results show that carbon emissions were between 323 and 332 kgCO2e per cubic metre of cement only natural aggregate concrete.These values can be reduced by up to 17%by replacing 25%of the cement with fly ash.By contrast,carbon emissions can increase when natural coarse aggregates are replaced by recycled aggregates in proportions of 50%and 100%,and trans-portation is not included in analysis.However,the concrete with 50%recycled aggregate presented lower increase,only 0.3%and 3.4%for normal and high strength concrete,respectively.In some cases,the rel-ative contribution of transportation to the total carbon emissions increased when cement was replaced by fly ash in proportions of 25%,and case-specific transportation distances were considered.In absolute values,the concrete mixes with 100%recycled aggregates and 25%fly ash had lower carbon emissions than concrete with cement and natural aggregates only.Higher environmental benefits can be obtained when the transportation distances of fly ash are relatively short(15-25 km)and the cement replacement by fly ash is equal or higher than 25%,considering that the mechanical properties are adequate for prac-tical application.The observations from this paper show that recycled aggregate concrete with strength characteristics representative for structural members can have lower carbon emissions than conventional concrete,recommending them as an alternative to achieving global sustainability standards in construction. 相似文献
5.
Samples of pyroclastic rocks from Abakaliki area (Nigeria) were subjected to geological and geochemical tests to determine the suitability and durability of the rocks as concrete aggregate. Petrographic analysis shows fine-grained texture and predominance of plagioclase (21–60 %) and shaley-muddy lithic fragment, while geochemical analysis classifies the rocks as alkaline. Analysis indicates that the pyroclastics would likely perform marginally well as concrete aggregates, especially in heavy Portland cement concrete and bituminous concrete. This is due to appreciably high values of natural moisture content, low bulk density, relative density and specific gravity, which suggests low durability, high voids and less aggregate absorption in concrete and bitumen mixes. The rocks are rated as moderate to high strength material on the basis of their unconfined compressive strength values, but are very likely to have low durability as buttressed by poor sulphate soundness test results, probably due to high amount of weak minerals. Analyses reveal that the Abakaliki Pyroclastics are not completely satisfactory as concrete aggregates source, despite their origin, texture, strength and economic availability. Hence, caution is required when they are used in concrete projects. 相似文献
6.
Acta Geotechnica - Pumice has a large potential to be used in structural and geotechnical engineering projects as a lightweight aggregate, and it is a material of unique characteristics.... 相似文献
7.
In this research, the possibility of replacing different portions of the normally used aggregate by acidic rocks was investigated.
These rock types outcrop at the northern part of Eastern Desert, southwest Ras Gharib area where large quantities of good
quality acidic rocks are available their. Portland cement concrete is a composite material made up of the hydrated cement
matrix, fine aggregate and coarse aggregate. The scanning electron microscope equipped with an energy dispersive X-ray analysis
system (EDX) has been applied to investigate several aspects of Portland cement concrete microstructure. The topics investigated
so far include the influence of aggregate composition on the development of the cement paste-aggregate interface and the formation
of calcium silicate hydrate CSH/calcium silicate aluminate CSA formation. The silicate gel coated the aggregates in the concrete
paste and crystallized into well defined needle like shape, cotton shape as well as euhedral to subhedral crystals of silicate/alumiante
and ettringite minerals with free lime librated from the hydrolysis process. The free lime can react again with the aggregates
leading to the formation of cementing materials which increase strength and durability of the concrete paste by increasing
the interfacial bonds between the used aggregates. 相似文献
8.
The goal of the research was to demonstrate the impact of thin porous interfacial transition zones (ITZs) between aggregates and cement matrix on fluid flow in unsaturated concrete caused by hydraulic/capillary pressure. To demonstrate this impact, a novel coupled approach to simulate the two-phase (water and moist air) flow of hydraulically and capillary-driven fluid in unsaturated concrete was developed. By merging the discrete element method (DEM) with computational fluid dynamics (CFD) under isothermal settings, the process was numerically studied at the meso-scale in two-dimensional conditions. A flow network was used to describe fluid behaviour in a continuous domain between particles. Small concrete specimens of a simplified particle mesostructure were subjected to fully coupled hydro-mechanical simulation tests. A simple uniaxial compression test was used to calibrate the pure DEM represented by bonded spheres, while a permeability and sorptivity test for an assembly of spheres was used to calibrate the pure CFD. For simplified specimens of the pure cement matrix, cement matrix with aggregate, and cement matrix with aggregate and ITZ of a given thickness, DEM/CFD simulations were performed sequentially. The numerical results of permeability and sorptivity were directly compared to the data found in the literature. A satisfactory agreement was achieved. Porous ITZs in concrete were found to reduce sorption by slowing the capillary-driven fluid flow, and to speed the full saturation of pores when sufficiently high hydraulic water pressures were dominant. 相似文献
9.
以石膏、浮石、硅藻土等材料为相似材料对多孔含水岩层进行相似材料模拟。试验中采用四因素(硅藻土水泥石膏比、标准砂浮石比、骨胶比、重晶石骨料比)、五水平的正交试验方法,分别对多孔含水岩层的相似材料试件进行密度、单轴抗压强度、孔隙率、弹性模量以及软化系数的测定,得出相应的物理力学性质指标,采用直观分析法分析各因素对物理力学性质的影响规律。分析结果表明:由于各配比度不同,相似材料强度分布范围较广,在与多孔岩层的岩石参数对比中发现,在一定的相似条件下,基本符合多孔岩层岩石的相似要求;硅藻土含量与密度、抗压强度、弹性模量、孔隙率呈负相关,与软化系数呈正相关;浮石含量与密度、抗压强度、弹性模量、软化系数呈负相关,与孔隙率呈正相关。所加入的两种材料可较好地模拟样品的多孔特性。在允许波动范围之内,所建立的模拟多孔含水岩层的经验方程可用于工程实践。 相似文献
10.
This paper presents a numerical study of high strength concrete microstructure effects on its uniaxial and biaxial compressive strengths. Concrete is first represented as a set of angular aggregates interacting within a cement paste matrix. Then, a yield design kinematic approach is conducted at the mesoscopic scale in order to determine the concrete compressive strength for a given loading path. The proposed model, having a low computational cost, is able to capture the main microstructure effects already observed in literature on concrete uniaxial compressive strength, in particular, the aggregates volume fraction and maximal size effects. Finally, the proposed model also predicts the biaxial failure envelope of high strength concrete and confirms some experimental trends observed in literature. 相似文献
11.
在地热井固井水泥中加入导热填料能够明显改善水泥石导热性能,提升地热井取热效果。在总结导热路径理论和紧密堆积理论的基础上,通过试验研究不同填料种类、粒径及掺量对固井水泥导热性能的影响。试验结果表明:较其他种类填料,石墨对水泥石导热性能提升效果最好;石墨粒径越大对应水泥石导热系数越高。不同粒径的石墨混合,较单一粒径石墨对水泥石导热性能的提升效果更好,其最优混合配比为:石墨粒径为150 μm与100 μm,质量比为2:1。随着石墨掺量增加,固井材料的导热系数逐渐增大,但流动度和48 h抗压强度逐渐降低。参照固井相关规范,提出固井材料中石墨掺量应控制在9%左右为宜。研究成果为地热井高导热固井材料的制备提供借鉴。移动阅读 相似文献
12.
采用水泥和地聚合物作为固化剂制备气泡混合轻质土,测试水泥轻质土(LCSC)和地聚合物轻质土(LGSC)在干湿循环和硫酸钠长期浸泡环境下的无侧限抗压强度和质量变化率,并相互进行对比,分析干湿循环级数和硫酸钠浸泡环境对其强度特性的影响规律。结果表明,标准养护地聚合物轻质土强度约为水泥轻质土的2倍;干湿循环后地聚合物轻质土强度随干湿循环级数衰减较快且破坏程度逐渐增大,水泥轻质土强度未出现明显衰减,与水泥轻质土相比,地聚合物轻质土抗干湿能力较差;硫酸钠溶液浸泡120 d后,地聚合物轻质土强度出现小幅下降,约为标准养护28 d试样的80%;水泥轻质土出现开裂破坏,与水泥轻质土相比,地聚合物轻质土抗硫酸钠侵蚀能力较强。 相似文献
13.
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
14.
高强防寒保温泡沫混凝土研制与工程应用 总被引:1,自引:1,他引:0
复杂地层寒区隧道填充材料需兼具防寒保温、抗震和优化支护等性能,为解决常规泡沫混凝土在复杂地层寒区隧道应用中存在的不足,通过正交试验得到了自制泡沫混凝土的最佳配合比,研制了一种高强防寒保温泡沫混凝土.通过室内试验,研究了所制泡沫混凝土的保温性能和冻融劣化特征,并采用数值分析方法探讨了西藏嘎隆拉隧道初衬和二衬之间加设泡沫混凝土垫层后的温度场变化规律.结果表明:该泡沫混凝土具有较好的保温性能和抗冻融损伤性能,同时强度、延性较普通泡沫混凝土都有明显改善.数值计算结果显示,当在初衬和二衬之间增设泡沫混凝土垫层时,其相应位置的温度变幅由不设置时的4.5℃变为2℃,最低温度由1℃提高到了3℃,表明加设所研制泡沫混凝土垫层对于阻止围岩受到隧道内冷空气的侵害具有非常显著的效果. 相似文献
15.
Repair mortars with different B/Ag (binder/aggregate) ratios and natural stone were studied in order to understand the influence of limestone aggregate on the properties of mortar and to check the compatibility of repair mortar with a porous limestone. Three different types of mortars with three different aggregate contents were evaluated by using mercury intrusion porosimetry (MIP) and water saturation method (WSM). Changes in density and uniaxial compressive strength as a function of aggregate content were also recorded. For comparison the properties of the porous limestone were also tested, since it is used in monuments and also as aggregate in the mortar. Tested mortars had average porosities of 27.0 % (±2.0), while oolitic limestone has higher average porosity of 32.2 % (±1.9). The limestone has mainly medium and large pore radii (1–100 μm) while the repair mortars even with high aggregate content has predominantly smaller pores. All but one pure repair mortars have higher uniaxial compressive strength than that of the oolitic limestone. The strength decreases while porosity increases with increasing aggregate content. 相似文献
16.
This article continues from the earlier feature in Geology Today (2011, v.27, n.4) and looks at the influence of chemical reactivity within concrete due to the presence of unsound aggregates or deleterious material incorporated in the aggregate used in the concrete mix. Some of the more disruptive problems from chemical unsoundness come from the presence of chlorides, which cause rusting in reinforced concrete or, sulphate attack from ground waters. Both of these reactions are relatively common in Britain. Alkali–silica reactions with aggregates and cement is not too prevalent in Britain but can be very prevalent and disruptive elsewhere in the world. 相似文献
17.
The rapidly developing mining sector in recent years has also brought environmental problems together. At the beginning of these problems are mine process wastes produced in high quantities from mines every year. The waste material at 90% and the concentrate chromite at 10% are obtained in the chromite ore enrichment plants. This significant amount of waste creates pollution in nature visually and physically. The aim of the study is to determine the advantages of using foamed concrete as a building material, to reduce the production cost of foamed concrete, to produce alternative solutions for rehabilitation, and to eliminate environmental pollution. The chromite enrichment wastes obtained from Fethiye, Köyce?iz, Denizli and Burdur regions were used as aggregates in the production of foamed concrete. In this study, compressive strength experiments were carried out according to TS EN 1354, thermal conductivity experiments were carried out according to TS EN 12664. As a result, it has been observed that chromite waste (dunite) can be used in the production of foamed concrete under certain conditions. 相似文献
18.
固井材料导热性能是影响地热井取热效果的因素之一。为提升地热井固井材料导热系数,采用正交试验,借助层次分析-指标重复性相关(AHP-CRITIC)混合加权法和极差分析,进行固井材料导热性能研究。结果表明:添加天然鳞片石墨、铁粉和石英砂均可提高固井材料导热系数,其中石墨对导热系数的提升作用最为显著,铁粉次之,石英砂最小;石墨掺量和水固比分别是影响固井材料综合性能的主次要因素;随着石墨掺量递增,其导热系数递增、48 h抗压强度和流动度均递减;得出高导热固井材料的优选配合比为:水固比值0.44,石墨、铁粉和石英砂掺量分别占水泥质量的7.5%、3%、2%,其导热系数可达1.87 W/(m·K),较常规固井材料提高约70%。研究成果可为地热能高效开发利用提供参考。 相似文献
19.
In order to determine the properties of lean Roller compacted concrete mixture of Filiatrinos Dam, a number of trial mixtures were prepared and a trial section was constructed. The results of the above tests were supplemented with laboratory measurements and in situ tests that were performed during the quality control of the dam construction. Additionally, results of trial mixtures using flysch excavation material from the dam area and limestone aggregates with clay lumps from a nearby quarry were used. This paper examines the impact of the quality of aggregates and the cementitious materials’ content on compressive strength and also the influence of other factors, such as the percentage of compaction. Certain mathematical relations are suggested that can be used in the design phase of hardfill Dams as well as in the quality control during construction. Moreover, the influence of the cement content on the compressive strength and the percentage of the replacement of cement with flying ash are studied. 相似文献