The influence of chloride ion diffusion on the structure of cement composites containing carbonate additives

O Borziak, V Zhuravel, M Hudymenko
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Abstract

One way to reduce the diffusion of chlorides deep into concrete is to bind chlorine ions into stable hydration products. It is known that systems containing carbonates have an increased binding capacity towards chlorides. The goal of this work is to study the effect of carbonate additives on the depth of diffusion of chlorine ions in cement composites (mortars). As controls, samples of mortar were made using cement CEM I 42.5 R as binder. In the main samples, 15% of cement was replaced by carbonates - chalk and limestone. The strength characteristics of mortar samples kept in water and in a sodium chloride solution were studied. According to test data, it was established that the compressive strength of samples with the addition of chalk or limestone practically does not change under the influence of a chloride solution. The compressive strength of samples without additives in the salt solution decreased by 8%. The depth of diffusion of chlorine ions deep into cement composites was also studied. It has been established that replacing part of the binder with carbonate additives does not reduce the permeability of porous cement composites for chloride ions.
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氯离子扩散对含有碳酸盐添加剂的水泥复合材料结构的影响
减少氯化物向混凝土深处扩散的一种方法是将氯离子结合到稳定的水化产物中。众所周知,含有碳酸盐的体系对氯化物的结合能力更强。这项工作的目的是研究碳酸盐添加剂对氯离子在水泥复合材料(砂浆)中扩散深度的影响。作为对照,使用水泥 CEM I 42.5 R 作为粘结剂制作灰泥样品。在主要样品中,15% 的水泥被碳酸盐(白垩和石灰石)取代。研究了在水中和氯化钠溶液中保存的砂浆样品的强度特性。根据测试数据,可以确定添加了白垩或石灰石的样品的抗压强度在氯化溶液的影响下几乎没有变化。在盐溶液中不添加添加剂的样品抗压强度降低了 8%。此外,还研究了氯离子向水泥复合材料深处扩散的深度。结果表明,用碳酸盐添加剂代替部分粘结剂不会降低多孔水泥复合材料对氯离子的渗透性。
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