硅质粉煤灰的火山灰活性在可持续胶凝复合材料结构形成中的作用

G. Golewski
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引用次数: 20

摘要

本文详细介绍了粉煤灰(FA)添加剂在水泥复合材料中发生化学火山灰反应的过程。然而,在研究部分,跟踪了水泥浆体在养护初期和制备后28天的结构阶段的发展。为此,使用了扫描电子显微镜(SEM)。为了准确地显示含FA复合材料结构形成的所有特征阶段,对水泥基质在养护0.5至28天之间进行了分析。显微结构研究由所用FAs的火山灰活性测试补充。为了对这一特征进行充分的分析,我们采用化学和物理两种研究方法进行了实验。研究发现:在添加FA的水泥复合材料中,在养护至第3天期间,材料结构的发展主要是水化反应的结果,在制样后第7天至第14天,FA颗粒上的火山灰反应的第一个迹象是可见的;然而,在14 ~ 28天的时间内,FA的加入使水泥复合材料的结构出现了明显的均匀化,这是由于无序相变为致密且均匀的形式,并且在复合材料的多孔处填充了火山灰反应产物。水泥复合材料的使用,其应用可以减少温室气体排放到大气中,降低能源消耗,减少工业废物填埋,导致生态和可持续建筑工程的发展。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Role of Pozzolanic Activity of Siliceous Fly Ash in the Formation of the Structure of Sustainable Cementitious Composites
The following article introduces, in a thorough manner, how the chemical pozzolanic reaction takes place in cement composites containing the fly ash (FA) additive. In the research part, however, the development of phases in the structure of the cement paste in the initial period of its curing and after 28 days from its preparation was traced. For this purpose, a Scanning Electron Microscope (SEM) was used. In order to accurately highlight all the characteristic stages of the formation of the structure of the composite containing FA, an analysis of the cement matrix was carried out between 0.5 and 28 days of their curing. Microstructural studies were complemented by tests of pozzolanic activity of FAs used. In order to conduct a full analysis of this feature, experiments were carried out using two types of research methods, i.e., chemical and physical. On the basis on the conducted studies it was found that: in cement composites with the addition of FA, in the period until the third day of curing, the development of the material structure is mainly the result of the hydration reaction, and between the seventh and fourteenth day after sample preparation, the first signs of the pozzolanic reaction on FA grains are visible; however, in the period between 14 and 28 days, there is a clear homogenization of the structure of the cement composite with the addition of FA, resulting from the change of disordered phases into compact and homogeneous forms and filling in the composite of porous places with pozzolanic reaction products. The use of cement composites based on materials whose application makes it possible to reduce GHG emissions to the atmosphere, reduce energy consumption, and reduce industrial waste landfills leads towards the development of ecological and sustainable building engineering.
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