Phase changes during the drying of calcium aluminate cement bond castables – the influence of curing and drying conditions

A. Koehler, J. Neubauer, F. Goetz-Neunhoeffer
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引用次数: 6

Abstract

This study presents the influence of different curing temperatures and the availability of unbound H2O on the phase changes during the drying process of a simplified calcium aluminate cement bond castable. A mixture of CAC and alumina was hydrated for 48 h at 5, 23 and 40 °C, which represents different working conditions during casting. After the curing process, these samples were heated up to 180 °C, and in some of them, the remaining unbound H2O had been removed by vacuum drying beforehand. The quantitative phase composition was determined by QXRD. Thermogravimetric analysis and gravimetric measurements were also used to characterize the differently cured samples. While the mineral phases in the samples cured at 40 °C were barely affected by the heating process in the investigated temperature range, the initial conditions before the drying of the samples cured at 5 and 23 °C strongly affected the final phase composition.

铝酸钙水泥粘结浇注料干燥过程中的相变化——养护和干燥条件的影响
本文研究了不同养护温度和未结合水的可用性对简化铝酸钙水泥粘结浇注料干燥过程中相变化的影响。CAC和氧化铝的混合物分别在5℃、23℃和40℃下水化48 h,代表铸造过程中不同的工作条件。固化后,将这些样品加热到180℃,其中一些样品中剩余的未结合的H2O通过真空干燥预先除去。采用QXRD测定了样品的定量相组成。热重分析和重量测量也被用来表征不同的固化样品。在研究温度范围内,40℃固化样品中的矿物相几乎不受加热过程的影响,而5℃和23℃固化样品干燥前的初始条件对最终相组成有强烈影响。
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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