Low-grade fly ash in portland cement blends: A decoupling approach to evaluate reactivity and hydration effects

Qingxu Jin , Wenyu Liao , Xiaoqiang Ni , Hongyan Ma
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Abstract

Fly ash with low glass content is often prohibited from use in concrete due to the low reactivity and/or the inclusion of contaminants. However, the scarcity of high-quality fly ash promotes the evaluation of the feasibility of using fly ash with low glass content (e.g., low-grade fly ash) in concrete. This study proposes a decoupling method to quantitatively estimate the degree of reaction of fly ash with extremely low glass content, which partially replaces cement, and the degree of hydration of the hosting cement, simultaneously. The estimation is derived from the contents of calcium hydroxide and chemically bonded water in hydrated binary cement pastes, which can be determined by thermogravimetric analysis-based experiments and theoretically validated stoichiometric parameters. The results exhibit that the fly ash tends to retard the early-age hydration of cement but promotes its later-age hydration, resulting in a higher ultimate degree of reaction of cement than the reference paste. The microstructural and porosity evaluation shows that the fly ash, though has relatively low degrees of reaction due to its low glass content, can result in a more tortuous pore network of the hydrated pastes, which could be potentially more resistant to the penetration of water and aggressive chemicals.
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硅酸盐水泥掺合料中的低标号粉煤灰:评估反应性和水化效应的解耦方法
玻璃含量低的粉煤灰由于反应活性低和/或含有污染物,通常被禁止用于混凝土中。然而,优质粉煤灰的稀缺促进了对在混凝土中使用低玻璃含量粉煤灰(如低等级粉煤灰)可行性的评估。本研究提出了一种解耦方法,可同时定量估算部分取代水泥的玻璃含量极低的粉煤灰的反应程度和宿主水泥的水化程度。估算值来自水化二元水泥浆中氢氧化钙和化学键水的含量,可通过基于热重分析的实验和理论验证的化学计量参数确定。结果表明,粉煤灰往往会延缓水泥的早期水化,但会促进其后期水化,从而使水泥的最终反应度高于参考浆体。微观结构和孔隙率评估结果表明,粉煤灰虽然因其玻璃含量低而反应度相对较低,但却能使水化浆料的孔隙网络更加曲折,从而可能更能抵御水和侵蚀性化学品的渗透。
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