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大掺量粉煤灰早期活性激发及其作用机理 被引量:24

Early activation effect and mechanism of high-volume fly ash
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摘要 针对水泥基材料中大掺量粉煤灰早期激发效率低的问题,本文选取不同品种化学试剂以单掺、双掺的形式获得6种不同类型的激发剂,通过宏微观系列试验相结合的方法,确定激发剂的种类、掺量、复掺的最佳比例和粉煤灰激发要求的最低pH;并通过X-射线衍射法(XRD)、电子扫描显微镜(SEM)、微区能谱分析(EDS)、热重分析(TG)和氮气吸附测试(BET)探明激发剂的激发时效和激发机理。结果表明:Ca(OH)_2是粉煤灰水化的前提条件,双掺激发优于单掺,其最佳组合为Ca(OH)_2+Na_2SiO_3,比例为3∶1,最佳掺量为3%;粉煤灰掺量为50%时,单掺Ca(OH)_2和复掺激发剂的作用时效分别为7 d和3 d,维持粉煤灰-水泥体系能够反应的最低pH值是13.11; Ca(OH)_2+Na_2SiO_3激发剂既促进了水泥的水化又激发了粉煤灰早期活化,使粉煤灰结构在钠-钙-硫共同作用下快速裂解、水化,提高了粉煤灰-水泥的早期强度。 To address the low early excitation efficiency of high-volume fly ash in cement-based materials,we selected six different types of activators from different chemical reagents in either single-addition or double-addition form. Then,by combining a series of macro and micro experiments,we determined the type,dosage,and optimal ratio of the double addition of the activator,and the minimum pH required for fly ash excitation. Next,we determined the activation and activation mechanisms of the activators by X-ray diffraction( XRD),scanning electron microscopy( SEM),energy dispersive spectroscopy( EDS),thermogravimetric analysis( TG),and nitrogen adsorption tests( BET). The results show that calcium hydroxide is a prerequisite for the hydration of fly ash,and that the optimum combination is Ca( OH)2+ Na2 SiO3 at a ratio of 3 ∶1. The optimum dosage is 3%. When the content of fly ash is 50%,the time effect of an activator for single and double addition is seven days and three days,respectively.The minimum pH value for the reaction of a fly-ash cement system is 13. 11. The results of the microscopic series show that the activator Ca( OH)2+Na2 SiO3 not only promotes the hydration of cement,but also stimulates the early activation of fly ash,which means the fly ash can be quickly cracked and hydrated under the action of the sodiumcalcium-sulfur ions to improve the early strength of fly-ash cement.
作者 孙国文 汤青青 张丽娟 王彩辉 SUN Guowen;TANG Qingqing;ZHANG Lijuan;WANG Caihui(School of Materials Science and Engineering,Shijiazhuang TieDao University,Shijiazhuang 050043,China;Foundational Subjects Department of SiFang College,Shijiazhuang TieDao University,Shijiazhuang 051132,China)
出处 《哈尔滨工程大学学报》 EI CAS CSCD 北大核心 2019年第3期540-547,共8页 Journal of Harbin Engineering University
基金 国家自然科学基金项目(51478278) 河北省自然科学基金项目(E2014210149)
关键词 粉煤灰 水泥基材料 激发剂 激发时效 激发机理 早期活性 大掺量 fly ash cement-based materials activator action time action mechanism early activation high volume
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