Binder Microstructures Developed during the Hydration Process in the System Portland Cement – Calcium Aluminate Cement – Calcium Sulfate

MRS Proceedings Pub Date : 2016-01-01 DOI:10.1557/OPL.2016.20

A. Moncea, A. Panait, G. Deák, G. Poteraș

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引用次数: 1

Abstract

Lately, the investigations of binders from ternary system Portland cement (PC), calcium aluminate cement (CAC) and calcium sulfate ( $C\overline S$ ), have gone through a larger stage of development due to their special properties such as fast setting and rapid hardening, early strength, non-efflorescence, etc. These special properties are ensured by the binder’s microstructure, developed through hydration processes and reactions between hydrate components, which allows us to use them in special environments (aggressive environments with very low or very high level of pH, environments with high temperature, etc.). The binders from this system were simply named “dry mortars”, and provide the final user with an easy processing. In order to explain the mechanical behavior of the specimens exposed in normal curing conditions (T = 20 ± 2 °C and R.H. ≈ 95%), and with different percentages of calcium sulfate (added as hemihydrate or anhydrite), research on the microstructure of the hardened system was performed using SEM and XRD investigation techniques. The analyses have been performed on the binder pastes, hydrated for 1 and 28 days. The tests results showed that the specimen with anhydrous $C\overline S$ content had the best mechanical behavior.

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硅酸盐水泥-铝酸钙水泥-硫酸钙体系水化过程中粘结剂微观结构的形成

近年来，三元体系硅酸盐水泥(PC)、铝酸钙水泥(CAC)和硫酸钙($C\overline S$)的粘结剂由于具有快凝结快硬化、早强、不开花等特殊性能，其研究得到了较大的发展。这些特殊性能是由粘合剂的微观结构保证的，通过水化过程和水合物组分之间的反应形成，这使我们能够在特殊环境中使用它们(pH值非常低或非常高的侵蚀环境，高温环境等)。该系统的粘合剂被简单地命名为“干砂浆”，并为最终用户提供了一个简单的加工。为了解释在正常养护条件下(T = 20±2℃，R.H.≈95%)，以及不同比例硫酸钙(以半水或硬石膏的形式添加)下暴露的试样的力学行为，采用SEM和XRD研究技术对硬化体系的微观结构进行了研究。对黏合剂膏体进行了分析，水化时间分别为1天和28天。试验结果表明，无水C + S +的试样力学性能最好。

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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