Innovative assessment of reactivity in fly ash: The role of particle size distribution characteristics

IF 2.9 Q1 MATERIALS SCIENCE, CERAMICS
Rui Gao , Zhangjian Zhou , Jing Yang , Jinquan Zhang
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引用次数: 0

Abstract

The relationship between the intrinsic properties of seven different types of fly ash and the compressive strength of the resulting geopolymers was investigated. A comprehensive examination of the effect of chemical and mineralogical compositions, particle size distribution, on the compressive strength of the fly ash-based geopolymers were performed. Results revealed that particle size distribution had a more significant impact on reaction activity than amorphous phase content or average particle size alone. Therefore, a novel concept of 'reaction volume' based on the geopolymerization reaction mechanism was proposed, which reveals a high correlation between the reactivity of fly ash and the compressive strength of geopolymers, thereby enhancing the predictability of the process. The degree of reactivity, formulated through the integration of reaction volume and amorphous silica-aluminum content, was identified as a robust predictor of compressive strength, which can serve as a crucial tool for evaluating fly ash for the production of alkali-activated materials.

Abstract Image

粉煤灰反应性的创新评估:粒度分布特征的作用
研究了七种不同类型粉煤灰的内在特性与所得土工聚合物抗压强度之间的关系。研究全面考察了化学和矿物成分、粒度分布对粉煤灰基土工聚合物抗压强度的影响。结果表明,粒度分布对反应活性的影响比无定形相含量或平均粒度更显著。因此,根据土工聚合反应机理提出了 "反应体积 "的新概念,它揭示了粉煤灰反应活性与土工聚合物抗压强度之间的高度相关性,从而提高了工艺的可预测性。通过整合反应体积和无定形硅铝含量得出的反应度是抗压强度的可靠预测指标,可作为评估粉煤灰生产碱活性材料的重要工具。
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来源期刊
Open Ceramics
Open Ceramics Materials Science-Materials Chemistry
CiteScore
4.20
自引率
0.00%
发文量
102
审稿时长
67 days
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