叶铝石的形成、表征及SEM微观分析

M. D. Kamitsou, Elias Kostakopoulos, D. Kanellopoulou, V. Hallet, Petrica Petrica, A. Christogerou, G. Angelopoulos
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引用次数: 0

摘要

硫铝酸钙和硫铝酸钙水泥是一种很有前途的低碳硅酸盐替代品。本研究采用XRD、Q-XRD和SEM-EDS对不同温度下得到的化学计量铝铝石进行了表征。此外,还研究了含标准砂和不含标准砂的合成铝矾土砂浆的强度随时间的发展情况。主要结果是,通过将化学计量量的分析级原料在1330℃下浸泡3小时,然后快速冷却,可以制备出高铝含量的样品。此外,增加形成的极限导致强度值增加,满足CEM 32.5的分类要求。
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Formation, Characterization and SEM Microanalysis of Yeelimite
Yeelimite is one of the main components of SulfoBelite (SB) and Calcium SulfoAluminate cements which are promising low carbon alternatives to Portland ones. In this study, stoichiometric yeelimite, obtained at different temperatures, was characterized by XRD, Q-XRD and SEM-EDS. Additionally, mortars of the synthetic yeelimite, with and without standard sand, were studied in terms of the development of strength over time. The main result is that high yeelimite content samples were prepared by mixing stoichiometric quantities of analytical-grade raw materials at 1330 °C for 3 h soaking time, followed by rapid cooling. Moreover, an increase in the formed yeelimite results in increased strength values that meet the requirements to be classified at CEM 32.5.
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