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Reaction pathway led by silicate structure transformation on decomposition of CaSiO_3 in alkali fusion process using NaOH 被引量:4
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作者 赵昌明 王国承 +3 位作者 李胜利 艾新港 王子睿 翟玉春 《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2015年第11期3827-3833,共7页
The mechanism of decomposition of calcium inosilicate(CaSiO_3) synthesized through chemical deposition method using analytical reagent NaSiO_3·9H_2O and CaCl_2 during the alkali fusion process using NaOH was inve... The mechanism of decomposition of calcium inosilicate(CaSiO_3) synthesized through chemical deposition method using analytical reagent NaSiO_3·9H_2O and CaCl_2 during the alkali fusion process using NaOH was investigated by Raman spectroscopy in situ,X-ray diffraction and Fourier transform infrared spectrometer(FTIR).The results show that the tetrahedral silica chains within CaSiO_3 are gradually disrupted and transformed into nesosilicate with the isolated SiO_4 tetrahedra at the beginning of the alkali fusion process.The three intermediates including Ca_2SiO_4,Na_2CaSiO_4 and Na_2SiO_3 appear simultaneously in the decomposition of CaSiO_3,while the final products are Ca(OH)_2 and Na_4SiO_4.It can be concluded that there exist two reaction pathways in the alkali fusion process of CaSiO_3:one is ion exchange,the other is in the main form of the framework structure change of silicate.The reaction pathway is led by silicate structure transformation in the alkali fusion process. 展开更多
关键词 alkali fusion process CaSiO3 INTERMEDIATE reaction pathway
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Effect of Anti-freezing Admixtures on Alkali-silica Reaction in Mortars 被引量:5
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作者 柳俊哲 《Journal of Wuhan University of Technology(Materials Science)》 SCIE EI CAS 2005年第2期80-82,共3页
The influence of anti-freezing admixture on the alkali aggregate reaction in mortar was analyzed with accelerated methods. It is confirmed that the addition of sodium salt ingredients of anti-freezing admixture accele... The influence of anti-freezing admixture on the alkali aggregate reaction in mortar was analyzed with accelerated methods. It is confirmed that the addition of sodium salt ingredients of anti-freezing admixture accelerates the alkali silica reaction to some extent, whereas calcium salt ingredient of anti-freezing admixture reduces the expansion of alkali silica reaction caused by high alkali cement. It is found that the addition of the fly ash considerably suppresses the expansion of alkali silica reaction induced by the anti-freezing admixtures. 展开更多
关键词 anti-freezing admixture alkali-silica reaction reactive aggregates fly ash
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Alkali-Silica Reaction Inhibited by LiOH and Its Mechanism 被引量:2
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作者 莫祥银 《Journal of Wuhan University of Technology(Materials Science)》 SCIE EI CAS 2003年第1期13-16,共4页
A high alkali reactive aggregate zeolitization perlite was used to test the long term effectiveness of LiOH in inhibiting alkali silica reaction.In this paper,the rigorous conditions were designed that the mortar b... A high alkali reactive aggregate zeolitization perlite was used to test the long term effectiveness of LiOH in inhibiting alkali silica reaction.In this paper,the rigorous conditions were designed that the mortar bars had been cured at 80℃ for 3 years after autoclaved 24 hours at 150℃.Under this condition,LiOH was able to inhibit the alkali silica reaction long term effectiveness.Not only the relationship between the molar ratio of n(Li)/(Na) and the alkali contents in systems was established, but also the governing mechanism of such effects was also studied by SEM. 展开更多
关键词 lithium compounds alkali silica reaction long term performance MECHANISM
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Calculation of Alkali Silica Reaction (ASR) Induced Expansion before Cracking of Concrete 被引量:1
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作者 庄园 钱春香 XU Wen 《Journal of Wuhan University of Technology(Materials Science)》 SCIE EI CAS 2013年第1期110-116,共7页
A calculation method for predicting the formation of alkali-silica gel and analyzing the relationship of ASR induced expansion and aggregate size was proposed. The complicated chemistry of alkali silica reaction was s... A calculation method for predicting the formation of alkali-silica gel and analyzing the relationship of ASR induced expansion and aggregate size was proposed. The complicated chemistry of alkali silica reaction was simplified to be controlled by the diffusion process of chemical ions into reactive aggregates. The transport of chemical ions was described by the Fick's law. The ASR induced expansion was assumed to be directly related to the volume of produced alkali-silica gel. The finally expansion of a representative volume element (RVE) of concrete was then calculated according to the ratio of volume of alkali-silica gel and RVE. The input parameters of the model contains radius of reactive aggregate, volume fraction of reactive aggregate, initial concentration of chemical ions and porosity of cement paste. The applicability of the model was validated by an experiment of ASR-affected concrete specimens containing glass aggregate. It is shown that the amount of alkali-silica gel and ASR induced expansion can be well predicted. The expansion increasing with the decreasing aggregate size can be reproduced by the proposed model. 展开更多
关键词 alkali silica reaction EXPANSION calculation model aggregate size
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Multiscale Homogenization Analysis of Alkali–Silica Reaction (ASR) Effect in Concrete 被引量:2
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作者 Roozbeh Rezakhani Mohammed Alnaggar Gianluca Cusatis 《Engineering》 SCIE EI 2019年第6期1139-1154,共16页
The alkali silica reaction (ASR) is one of the major long-term deterioration mechanisms occurring in con- crete structures subjected to high humidity levels, such as bridges and dams. ASR is a chemical reaction betwee... The alkali silica reaction (ASR) is one of the major long-term deterioration mechanisms occurring in con- crete structures subjected to high humidity levels, such as bridges and dams. ASR is a chemical reaction between the silica existing inside the aggregate pieces and the alkali ions from the cement paste. This chemical reaction produces ASR gel, which imbibes additional water, leading to gel swelling. Damage and cracking are subsequently generated in concrete, resulting in degradation of its mechanical proper- ties. In this study, ASR damage in concrete is considered within the lattice discrete particle model (LDPM), a mesoscale mechanical model that simulates concrete at the scale of the coarse aggregate pieces. The authors have already modeled successfully ASR within the LDPM framework and they have calibrated and validated the resulting model, entitled ASR-LDPM, against several experimental data sets. In the pre- sent work, a recently developed multiscale homogenization framework is employed to simulate the macroscale effects of ASR, while ASR-LDPM is utilized as the mesoscale model. First, the homogenized behavior of the representative volume element (RVE) of concrete simulated by ASR-LDPM is studied under both tension and compression, and the degradation of effective mechanical properties due to ASR over time is investigated. Next, the developed homogenization framework is utilized to reproduce experimental data reported on the free volumetric expansion of concrete prisms. Finally, the strength degradation of prisms in compression and four-point bending beams is evaluated by both the mesoscale model and the proposed multiscale approach in order to analyze the accuracy and computational ef - ciency of the latter. In all the numerical analyses, different RVE sizes with different inner particle realiza- tions are considered in order to explore their effects on the homogenized response. 展开更多
关键词 Multiscale homogenization Representative volume element alkalisilica reaction Lattice discrete particle model
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Efficacy of Aluminum Hydroxides as Inhibitors of Alkali-Silica Reactions 被引量:2
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作者 Alexey Brykov Anna Anisimova 《Materials Sciences and Applications》 2013年第12期1-6,共6页
A comparative study of amorphous and crystalline forms of commercial aluminum hydroxides as inhibitors of alkalisilica reactions in Portland cement mortars has been performed. It was found that at dosages of 1% to 3%,... A comparative study of amorphous and crystalline forms of commercial aluminum hydroxides as inhibitors of alkalisilica reactions in Portland cement mortars has been performed. It was found that at dosages of 1% to 3%, amorphous aluminum hydroxide can efficiently inhibit alkali-silica expansion of Portland cement compositions. High inhibiting activity of amorphous Al(OH)3 additives may be explained by their ability to actively bind Ca(OH)2 formed by the hydration of silicate phases of cement, to form ettringite (with participation of gypsum). Crystalline Al(OH)3 additives that do not possess the ability to interact with Ca(OH)2 even after additional grinding, however, demonstrate week properties to inhibit alkali-silica expansion. This may indicate that the inhibitory effect of Al(OH)3 at least—partly, may be given by its influence on the concentration of Al3+ ions in the pore solution. Some expansion of the samples with admixtures of Al(OH)3 observed during the alkaline expansion accelerated test procedure is not associated with the formation of ettringite and is only due to alkali-silicate reactions. 展开更多
关键词 Aluminum HYDROXIDE alkali-silica reaction INHIBITION Portland CEMENT Concrete
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The Impact of Aluminum- and Iron-Bearing Admixtures on the Resistance of Portland Cement Mortars to Alkali-Silica Reaction and Sulfate Attack 被引量:1
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作者 Alexey Brykov Anna Anisimova +2 位作者 Natalya Rozenkova Mohammed Hadi Maxim Mokeev 《Materials Sciences and Applications》 2015年第6期539-548,共10页
Study of sulfate resistance of mortars with aluminum- and iron-bearing admixtures (Al(OH)3, Al2(SO4)3, FeSO4, Fe2(SO4)3) in conditions close to those established in ASTM C 1012, and the study of the mitigation effect ... Study of sulfate resistance of mortars with aluminum- and iron-bearing admixtures (Al(OH)3, Al2(SO4)3, FeSO4, Fe2(SO4)3) in conditions close to those established in ASTM C 1012, and the study of the mitigation effect of these admixtures on alkali-silica reaction in accordance with accelerated “mortar bar” test ( GOST 8269.0, ASTM C 1260) were performed. Iron (II) and (III) sulfates show ability for mitigation alkali-silica reaction, while also, in contrast with Al-bearing substances, do not induce the drastic reducing of the initial setting time and do not promote the progress of sulfate corrosion. Compared with FeSO4, iron (III) sulfate has moderate deleterious impact on the early strength of cement paste and can be of interest alone as an inhibitor of ASR. Iron (II) sulfate may be used together with aluminum sulfate to offset the accelerating effect of the latter on the setting of cement paste and to reduce a risk of sulfate corrosion. During prolonged water storage, the mortar elongation and secondary ettringite formation do not occur, even when Al2(SO4)3 is available. Therefore, the investigated admixtures cannot act as agents of internal sulfate attack, however, Al2(SO4)3 can enhance the outer sulfate attack. 展开更多
关键词 alkali-silica reaction SULFATE Attack Mitigation ALUMINUM SULFATE IRON SULFATE Portland Cement
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Effect of Pozzolanic Reaction Products on Alkali-silica Reaction
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作者 魏风艳 《Journal of Wuhan University of Technology(Materials Science)》 SCIE EI CAS 2006年第3期168-171,共4页
The effect of fly ash on controlling alkail-silica rection (ASR) in simudated alkali solution was studied. The expausion of mortar bars and the content of Ca( OH)2 in cement paste cured at 80 °G for 91 d were... The effect of fly ash on controlling alkail-silica rection (ASR) in simudated alkali solution was studied. The expausion of mortar bars and the content of Ca( OH)2 in cement paste cured at 80 °G for 91 d were measured. Traasmission electron microscopy (TEM) and high-resolution transmission electron microscot9 (HRTEM) were employed to study the microstructure of C-S-H. TEM/ energy dispersive spectroscopy (EDS) leas then used to determine the composition of C-S-H. The pore structure of the paste was analyzed by mercury intntsion porosimetry (MIP). The results show that the contents of fly ash of 30% and 45% can well inhibit ASR. And the content of Ca(OH) 2 decreases with the increase of fly ash. That fly ash reacted with Ca(OH)2 to produce C-S-H with a low Ca/Si molar ratio could bind more Na^+ and K^+ ious, and produce a reduction in the amount of soluble alkali available for ASR. At the same time, the C- S- H produced by pozzolanic reaction converted large pores to snudler ones ( gel pores smaller than 10 nm ) to deusify the pore structure. Perhaps that could inhibit alkali trausport to aggregate for ASR. 展开更多
关键词 alkali Ca/ Si molar ratio C-S-H alkali-silica reaction
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Effect of Mineral Admixtures on Alkali-Silica Reaction
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作者 张承志 WANG Aiqin 《Journal of Wuhan University of Technology(Materials Science)》 SCIE EI CAS 2008年第1期16-19,共4页
The influence of silica fume, slag and fly ash on alkali-silica reaction under the condition of 70 ℃ is studied. The results show that silica, slag and fly ash may inhibit alkali-silica reaction only under suitable c... The influence of silica fume, slag and fly ash on alkali-silica reaction under the condition of 70 ℃ is studied. The results show that silica, slag and fly ash may inhibit alkali-silica reaction only under suitable content. When the content is less than 10%, silica fume does not markedly influence the expansion of alkali- silica reaction. When the content is 15%-20%, silica fume only may delay the expansion of alkali-silica reaction. When the content is 30%-70%, slag may only delay the expansion of alkali-silica reaction, but cannot inhibit the expansion of alkali-silica reaction. When the content is 10%, fly ash does not markedly influence the expansion of alkali-silica reaction. When the content is 20%-30%, fly ash may only delay the expansion of alkali-silica reaction, but cannot inhibit the expansion of alkali-silica reaction. When the content is over 50%, it is possible that fly ash can inhibit effectively alkali-silica reaction. 展开更多
关键词 mineral admixture alkali-silica reaction EFFECTIVENESS
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Effect of the Composite of Natural Zeolite and Fly Ash on Alkali-Silica Reaction
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作者 封孝信 FENGNai-qian HANDong 《Journal of Wuhan University of Technology(Materials Science)》 SCIE EI CAS 2003年第4期93-96,共4页
The effect of the composite of natural zeolite and fly ash on alkali-silica reaction (ASR) was studied with natural alkali-reactive aggregate and quartz glass aggregate respectively.The expansive experiment of mortar ... The effect of the composite of natural zeolite and fly ash on alkali-silica reaction (ASR) was studied with natural alkali-reactive aggregate and quartz glass aggregate respectively.The expansive experiment of mortar bar and concrete prism was completed.The results show that ASR can be suppressed effectively by the composite of natural zeolite and fly ash. 展开更多
关键词 natural zeolite fly ash alkali-silica reaction (ASR)
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The Mechanism of the Eeffect of Mineral Admixtures on the Expansion of Aalkali-silica Reaction
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作者 王爱勤 张承志 《Journal of Wuhan University of Technology(Materials Science)》 SCIE EI CAS 2008年第3期376-380,共5页
On the base of the influence rule of silica fume, slag and fly ash on alkali-silica reaction under the condition of 70 ℃, the mechanism of the effect of mineral admixtures on alkali-silica reaction is studied further... On the base of the influence rule of silica fume, slag and fly ash on alkali-silica reaction under the condition of 70 ℃, the mechanism of the effect of mineral admixtures on alkali-silica reaction is studied further in the paper. The results show that the effects of mineral admixtures on alkali-silica reaction are mainly chemistry effect and surface physichemistry effect. Under suitable condition, the chemistry effect may make alkali-silica reaction to be inhibited effectively, but the physichemistry effect only make alkali-silica reaction to be delayed. The chemistry effect and the physichemistry effect of minerals admixture are relative to the content of Ca(OH)2 in system. Under the condition that there is a large quantity of Ca(OH)2, mineral admixture cannot inhibit alkali-silica reaction effectively. Only when Ca(OH)2 in the system is very less, it is possible that mineral admixture inhibits alkali-silica reaction effectively. 展开更多
关键词 mineral admixture alkali-silica reaction MECHANISM
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Thickening progression mechanism of silica fume-oil well cement composite system at high temperatures
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作者 Hang Zhang Miao-Miao Hu +7 位作者 Peng-Peng Li Guo-Qing Liu Qing-Lu Chang Jie Cao Ming Liu Wen-Hua Xu Xiu-Jian Xia Jin-Tang Guo 《Petroleum Science》 SCIE EI CAS CSCD 2024年第4期2793-2805,共13页
This work studied the thickening progression mechanism of the silica fume-oil well cement composite system at high temperatures(110-180.C)in order to provide a theoretical guidance for the rational application of sili... This work studied the thickening progression mechanism of the silica fume-oil well cement composite system at high temperatures(110-180.C)in order to provide a theoretical guidance for the rational application of silica fume in the cementing engineering.Results showed that silica fume seldom affected the thickening progression of oil well cement slurry at 110-120.C,but when temperature reached above130.C,it would aggravate the bulging degree of thickening curves and significantly extend the thickening time,meanwhile causing the abnormal“temperature-based thickening time reversal”and“dosage-based thickening time reversal”phenomena in the range of 130-160.C and 170-180.C respectively.At 130-160.C,the thickening time of oil well cement slurry was mainly associated with the generation rate of calcium hydroxide(CH)crystal.The introduced silica fume would be attracted to the cement minerals'surface that were hydrating to produce CH and agglomerate together to form an“adsorptive barrier”to hinder further hydration of the inner cement minerals.This“adsorptive barrier”effect strengthened with the rising temperature which extended the thickening time and caused the occurrence of the“temperature-based thickening time reversal”phenomenon.At 170-180.C,the pozzolanic activity of silica fume significantly enhanced and considerable amount of C-S-H was generated,thus the“temperature-based thickening time reversal”vanished and the“dosage-based thickening time reversal”was presented. 展开更多
关键词 silica fume Oil well cement Thickening time reversal Pozzolanic reaction Adsorptive barrier CH and C-S-H
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Calcined Clay Pozzolan as an Admixture to Mitigate the Alkali-Silica Reaction in Concrete
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作者 James Sarfo-Ansah Eugene Atiemo +2 位作者 Kwabena Appiah Boakye Delali Adjei Albert A. Adjaottor 《Journal of Materials Science and Chemical Engineering》 2014年第5期20-26,共7页
Calcined clay pozzolan has been used to replace varying portions of high alkali Portland limestone cement in order to study its effect on the alkali-silica reaction (ASR). Portland limestone cement used for the study ... Calcined clay pozzolan has been used to replace varying portions of high alkali Portland limestone cement in order to study its effect on the alkali-silica reaction (ASR). Portland limestone cement used for the study had a total Na2Oeq of 4.32. Mortar-bar expansion decreased as pozzolan content in the cement increased. The highest expansion was recorded for reference bars with no pozzolan, reaching a maximum of 0.35% at 42 days whilst the expansion was reduced by between 42.5% and 107.8% at 14 days and between 9.4% and 16.4% at 84 days with increasing calcined clay pozzolan content. Mortar bars with 25% pozzolan were the least expansive recording expansion less than 0.1% at all test ages. X-ray diffractometry of the hydrated blended cement paste powders showed the formation of stable calcium silicates in increasing quantities whilst the presence of expansive alkali-silica gel, responsible for ASR expansion, decreased as pozzolan content increased. The study confirms that calcined clay pozzolan has an influence on ASR in mortar bars and causes a significant reduction in expansion at a replacement level of 25%. 展开更多
关键词 CALCINED CLAY POZZOLAN alkali-silica reaction Expansion Sodium silicaTE gel Calcium silicaTES
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Ultrafine Silica Additives Behavior during Alkali-Silica Reaction Long-Term Expansion Test
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作者 Alexey Brykov Mikhail Voronkov Maxim Mokeev 《Materials Sciences and Applications》 2014年第2期66-72,共7页
A silica fume, precipitated silica, metakaolin and siliceous fly ash behavior as constituents of mortars was studied, while mortar samples have been tested for long-term alkali-silica reaction expansion in accordance ... A silica fume, precipitated silica, metakaolin and siliceous fly ash behavior as constituents of mortars was studied, while mortar samples have been tested for long-term alkali-silica reaction expansion in accordance to the GOST 8269.0 specification. Solid-state 29Si-MAS NMR spectroscopy and thermogravimetric analysis were used to describe Portland cement hydration, supplementary cementitious material pozzolanic reaction and to establish a structure of products of those processes. It was found that long-term test conditions, in contrast to the accelerated test, do not affect the composition of products formed too much, compared to normal conditions. This allows results obtained with long-term test to be expected as more relevant in terms of predicting of supplementary cementitious materials inhibiting properties. 展开更多
关键词 alkali-silica reaction SUPPLEMENTARY Cementitious Materials MAS NMR THERMOGRAVIMETRIC Analysis Pozzolanic reaction
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The Mitigation of Alkali-Silica Reactions by Aluminum-Bearing Substances
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作者 Alexey Brykov Anna Anisimova Natalia Rozenkova 《Materials Sciences and Applications》 2014年第6期363-367,共5页
An ability of aluminum-bearing substances-amorphous aluminum hydroxide, aluminum sulphate and basic aluminum sulphate to mitigate alkali-silica reactions in Portland cement mortars has been studied. At equivalent dosa... An ability of aluminum-bearing substances-amorphous aluminum hydroxide, aluminum sulphate and basic aluminum sulphate to mitigate alkali-silica reactions in Portland cement mortars has been studied. At equivalent dosages in terms of Al2O3, these substances are ranged in the following order in respect of inhibiting effect: Al(OH)1.78(SO4)0.61 ≥ Al2(SO4)3 > Al(OH)3. It is found that the plasticizing agents of the main types used in cement compositions have no influence on the inhibiting effect of aluminum-bearing admixtures. To control the setting time of cement paste, iron(II) sulphate may be used for partial substitution of Al2SO4·18H2O, and this operation is not influence on the results of ASR expansion test. 展开更多
关键词 alkali-silica reaction MITIGATION ALUMINUM HYDROXIDE ALUMINUM Sulphate Basic ALUMINUM Sulphate Concrete Iron(II) Sulphate Portland Cement SUPERPLASTICIZERS Water-Reducing ADMIXTURES
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Reaction behaviour of Al_2O_3 and SiO_2 in high alumina coal fly ash during alkali hydrothermal process 被引量:19
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作者 蒋周青 杨静 +2 位作者 马鸿文 王乐 马玺 《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2015年第6期2065-2072,共8页
The reaction behaviours of A1203 and SiO2 in high alumina coal fly ash under various alkali hydrothermal conditions were studied. The means of XRD, XRF, FTIR and SEM were used to measure the mineral phase and morpholo... The reaction behaviours of A1203 and SiO2 in high alumina coal fly ash under various alkali hydrothermal conditions were studied. The means of XRD, XRF, FTIR and SEM were used to measure the mineral phase and morphology of the solid samples obtained by different alkali hydrothermal treatments as well as the leaching ratio of SiO2 to A1203 in alkali solution. The results showed that with the increase of the hydrothermal treating temperature from 75 to 160 ~C, phillipsite-Na, zeolite A, zeolite P, and hydroxysodalite were produced sequentially while the mullite and corundum phase still remained. Zeolite P was massively formed at low-alkali concentration and the hydroxysodalite was predominantly obtained at high-alkali concentration. By the dissolution of aluminosilicate glass and the formation of zeolites together, the leaching efficiency of SiO2 can reach 42.13% with the mass ratio of A1203/SIO2 up to 2.19:1. 展开更多
关键词 high alumina coal fly ash A1203 SIO2 alkali hydrothermal treatment reaction behaviour
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Effect of Glass Powder on Chloride Ion Transport and Alkali-aggregate Reaction Expansion of Lightweight Aggregate Concrete 被引量:3
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作者 王智 史才军 《Journal of Wuhan University of Technology(Materials Science)》 SCIE EI CAS 2009年第2期312-317,共6页
The effects of glass powder on the strength development, chloride permeability and potential alkali-aggregate reaction expansion of lightweight aggregate concrete were investigated. Ground blast furnace slag, coal fly... The effects of glass powder on the strength development, chloride permeability and potential alkali-aggregate reaction expansion of lightweight aggregate concrete were investigated. Ground blast furnace slag, coal fly ash and silica fume were used as reference materials. The re- placement of cement with 25% glass powder slightly decreases the strengthes at ? and 28 d, but shows no effect on 90 d's. Silica fume is very effective in improving both the strength and chloride penetration resistance, while ground glass powder is much more effective than blast furnace slag and fly ash in improving chloride penetration resistance of the concrete. When expanded shale or clay is used as coarse aggregate, the concrete containing glass powder does not exhibit deleterious expansion even if alkali-reactive sand is used as fine aggregate of the concrete. 展开更多
关键词 waste glass powder fly ash blast furnace slag silica fume lightweight aggregate chloride permeability alkali-aggregate reaction
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The Mechanism of Ground Granulated Blastfurnace Slag Preventing Alkali Aggregate Reaction 被引量:3
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作者 STARK Jochen FREYBURG Ernst 《Journal of Wuhan University of Technology(Materials Science)》 SCIE EI CAS 2010年第2期332-341,共10页
Three different methods were applied to study the alkali content of gelpores in cement. In the closed system, the concentration of K+, Na+ and OH - have not reduced with the increase of age. In the open system, the ... Three different methods were applied to study the alkali content of gelpores in cement. In the closed system, the concentration of K+, Na+ and OH - have not reduced with the increase of age. In the open system, the diffusion and transferring of K+ and Na+ towards free space leads to the de-crease of total alkali content. In the micro-analysis system, the contents of K+ and Na+ in the first hy- drated layer of ground granulated blastfurnace slag (GBFS) are very low, while the contents of calcium and magnesium are relatively high. This phenomenon shows that the mechanism of GBFS preventing alkali aggregate reaction (AAR) is: when GBFS is dissolved by alkali medium, SiO2 and Al2O3 are dissolved into the cement matrix, then around GBFS particles form reaction rings rich in Ca2+ and Mg^2+, and the C-S-H gel of positive charges formed in the area repulses K+ and Na+, which are forced to transfer to the mortar's matrix, pore or mortar sample surface. The transferred K ^+ and Na^+ form alkali gel products with other dissolved ions, then become evenly distributed in the mortar sample and react with Ca(OH)2 in pore solutions to form (Na,K)x-2z·zCa·(SiO2)y·(OH)x gel products; and thus changes the AAR gel products' structure. The gel products will not expand, and so they can delay expansion destruction. 展开更多
关键词 granulated blastfurnace slag (GBFS) alkali aggregate reaction (AAR) alkali content preventing mechanism
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Alkali Aggregate Reaction in Alkali Slag Cement Mortars 被引量:2
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作者 陈友治 《Journal of Wuhan University of Technology(Materials Science)》 SCIE EI CAS 2002年第3期60-62,共3页
By means of 'Mortar Bar Method',the ratio of cement to aggregate was kept as a constant 1∶2.25,the water cement ratio of the mixture was 0.40,and six prism specimens were prepared for each batch of mixing pr... By means of 'Mortar Bar Method',the ratio of cement to aggregate was kept as a constant 1∶2.25,the water cement ratio of the mixture was 0.40,and six prism specimens were prepared for each batch of mixing proportions with dimensions of 10×10×60mm 3 at 38±2℃ and RH≥95%, the influences of content and particle size of active aggregate, sort and content of alkali component and type of slag on the expansion ratios of alkali activated slag cement(ASC) mortars due to alkali aggregate reaction(AAR) were studied. According to atomic absorption spectrometry,the amount of free alkali was measured in ASC mortars at 90d.The results show above factors affect AAR remarkably,but no dangerous AAR will occur in ASC system when the amount of active aggregate is below 15% and the mass fraction of alkali is not more than 5% (Na 2O).Alkali participated in reaction as an independent component, and some hydrates containing alkali cations were produced, free alkalis in ASC system can be reduced enormously.Moreover,slag is an effective inhibitor, the possibility of generating dangerous AAR in ASC system is much lower at same conditions than that in ordinary Portland cement system. 展开更多
关键词 alkali activated slag cement alkali aggregate reaction alkali active aggregate
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Solid State Reaction Yielding a Mineral Utilizing Silica Obtained from an Agricultural Waste 被引量:5
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作者 M.S.Nizami M.K.Farooq K.Hussain and M.Z.Iqbal(PCSIR Laboratories Complex, Lahore, Pakistan) 《Journal of Materials Science & Technology》 SCIE EI CAS CSCD 1999年第3期276-280,共5页
Wollastonite, a mineral of wide industrial applications was synthesised from rice husk ash silica and limestone. A number of raw batches consisting of these starting materials, in 1:1 molar ratio, were heat treated to... Wollastonite, a mineral of wide industrial applications was synthesised from rice husk ash silica and limestone. A number of raw batches consisting of these starting materials, in 1:1 molar ratio, were heat treated to produce it through solid state reaction from 900℃ to 1300℃. The conducted reaction was monitored by XRD step by step. Amount of Wollastonite formed at every temperature was also studied to some extent. Analyses of the obtained data indicated that the target mineral formation was quite effective and almost proportional to a rise in temperature up to 1200℃. The results from both, XRD and chemical analysis were found in fair agreement with one another 展开更多
关键词 OO CAO Co Solid State reaction Yielding a Mineral Utilizing silica Obtained from an Agricultural Waste SIO
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