矿渣表面积对硅酸钠活化材料反应动力学影响的定量描述

Q2 Engineering RILEM Technical Letters Pub Date : 2022-12-27 DOI:10.21809/rilemtechlett.2022.167
A. Hamdan, Taehwan Kim, A. Hajimohammadi
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引用次数: 1

摘要

化学氧化物和炉渣的表面积对碱活化材料(AAMs)初始反应性的影响是耦合的。众所周知,矿渣在AAMs中的反应性受到SA的影响,但在以往的研究中并没有对这种影响进行定量的测量。为了正确理解炉渣化学对AAMs反应动力学的影响,需要对炉渣SA的影响进行定量描述。采用等温量热法对活性炉渣中的反应动力学进行了监测。渣粉的sa与反应到达主峰的时间(TTRP)、主峰加速部分的斜率以及1、3、7天的总热量有关。SA相对增加100%导致TTRP相对降低~51% ~ 75%。加速阶段的斜率也随着炉渣的SA的增大而增大。然而,sa对总热量的影响仅在3天内明显,然后在7天内显著降低。本研究结果表明,SA对AAMs初始反应性的影响不能简单地用比例贡献来考虑。本研究的结果可以通过提供定量结果来解耦sa和炉渣化学成分对AAMs反应动力学的影响,为解耦sa的影响提供了一种有希望的措施。
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Quantitative description of the effect of slag surface area on its reaction kinetics in sodium silicate-activated materials
The effects of chemical oxides and the surface area (SA) of slags on the initial reactivity of alkali-activated materials (AAMs) are coupled. It is well known that the reactivity of slag in AAMs is impacted by the SA, however, a quantitative measure of this effect was not provided in previous studies. For a proper understanding of the effect of slag chemistry on the reaction kinetics of AAMs, a quantitative description of the slags SA's effect is required. The reaction kinetics in the activated slags were monitored using isothermal calorimetry. The SAs of the pulverised slags were linked to the time-to-reach-the-main-peak (TTRP) of the reaction, the slope of the acceleration part of the main peak, and the total heat at one, three, and seven days. A 100% relative increase in SA caused a ~51%-75% relative decrease in TTRP. The slope of the acceleration stage also considerably increased with the SA of the slags. However, the effect of the SAs on the total heat was only distinct up to three days and then considerably reduced at seven days. The result of this study indicates that the effect of SA on the initial reactivity of AAMs cannot be simply considered using the proportional contribution. The outcome of this study can provide a promising measure to decouple the effects of SAs and the chemical compositions of slags on the reaction kinetics of AAMs by providing quantitative results for the effect SAs.
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来源期刊
RILEM Technical Letters
RILEM Technical Letters Materials Science-Materials Science (all)
CiteScore
5.00
自引率
0.00%
发文量
13
审稿时长
10 weeks
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