颗粒外加剂对高铝水泥凝结时间和微观结构影响的研究

O. Gavshina, S. Yashkina, A. Yashkin, V. Doroganov, I. Moreva
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引用次数: 8

摘要

本文全面研究了刚玉改性分散添加剂(活性氧化铝、板状氧化铝、分散氧化铝)和人工陶瓷粘结剂对高铝水泥微观结构和凝结时间的影响。人造陶瓷粘合剂具有与改性刚玉添加剂相似的化学、相和晶粒组成,其特点是存在小于100 nm(高达0.5%)的颗粒。所研究的材料是精细分散的多分数体系,粒径范围为0.1 ~ 13 μm,分级分数为2 ~ 10 μm。在这种情况下,分散性和活性氧化铝较粗。显微法证实刚玉添加剂增加了高铝水泥样品的堆积密度,特别是添加人工陶瓷粘结剂的刚玉添加剂。研究了分散外加剂对水泥凝结时间的影响。结果表明,添加0.5%的人造陶瓷粘结剂或分散氧化铝加速了初凝,但添加剂含量的进一步增加对该指标没有影响。最大限度地减少凝固时间是由于引入了5%的板状氧化铝。
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STUDY OF THE EFFECT OF PARTICULATE ADDITIVES ON THE SETTING TIME AND MICROSTRUCTURE OF HIGH-ALUMINA CEMENT
the paper is devoted to a full-scale study of corundum modifying dispersed additives (reactive, tabular, dispersing alumina) and artificial ceramic binder, their impact on high-alumina cement microstructure and setting time. Artificial ceramic binders are characterized by similar chemical, phase and grain composition with modifying corundum additives and characterized by the presence of particles less than 100 nm (up to 0.5%). The studied materials are finely dispersed polyfractional systems from 0.1 to 13 μm with a prevailing grading fraction of 2-10 μm. In this case, dispersing and reactive alumina are more coarse. Using the microscopy method it was established that the corundum additives increase packing density of high-alumina cement samples, especially with artificial ceramic binder addition. Studies of dispersed additives effect on the setting time of cement was conducted. It is established that the adding of artificial ceramic binder or dispersing alumina at 0.5% is speeding up the initial setting, but a further increasing of the additive content does not affect this indicator. The maximum reduction of setting time is caused by the introduction of 5% tabular alumina.
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