Method for experimentally determining N-A-S-(H) solubility

Q2 Engineering
T. Williamson, Joonkyoung Han, L. Katz, G. Sant, M. Juenger
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引用次数: 3

Abstract

Inorganic polymer binders, also sometimes called geopolymers or alkali-activated cements, can serve as an alternative to ordinary portland cement (OPC) in concrete.  The development of thermodynamic models to predict phase development and, ultimately, engineering properties, of inorganic polymer binders is an important step toward enabling their widespread use. However, such models require self-consistent solubility data of the primary phase in inorganic polymer binders, sodium aluminosilicate hydrate(s). To date, there is very little solubility information available for this phase. Here, a rigorous method for synthesizing sodium aluminosilicate hydrate(s) of controlled composition, and for measuring its solubility is presented. This approach allows complete stoichiometric control over the (initial) solution composition to elucidate directly the development of N-A-S-H composition as it relates to a given solution composition. A review of previous literature related to the solubility of other cementitious materials is presented, and the need for thermodynamic data is discussed. Finally, a sample calculation is presented for determining the solubility product (Ksp) of a laboratory synthesized sodium aluminosilicate hydrate.
实验测定N-A-S-(H)溶解度的方法
无机聚合物粘合剂,有时也称为地质聚合物或碱活化水泥,可以作为混凝土中普通硅酸盐水泥(OPC)的替代品。开发热力学模型来预测无机聚合物粘合剂的相发展,并最终预测其工程性能,是实现其广泛使用的重要一步。然而,这样的模型需要无机聚合物粘合剂、铝硅酸钠水合物中主相的自洽溶解度数据。到目前为止,该阶段的溶解度信息非常少。本文提出了一种合成可控组成的铝硅酸钠水合物并测定其溶解度的严格方法。这种方法允许对(初始)溶液组成进行完全的化学计量控制,以直接阐明N-A-S-H组成的发展,因为它与给定的溶液组成有关。综述了以往与其他胶凝材料溶解度相关的文献,并讨论了对热力学数据的需求。最后,给出了实验室合成的铝硅酸钠水合物溶解度积(Ksp)的样品计算。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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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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