Effectiveness Assessment of Superplasticizer Admixtures: Case of Self-compacting Concrete Reinforced with Fine Mineral Fillers

Selected Scientific Papers Journal of Civil Engineering Pub Date : 2022-12-01 DOI:10.2478/sspjce-2022-0014

M. Oualit, A. Irekti, B. Hami

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Abstract

Abstract The use of superplasticizers in concrete production has become a common practice, especially when a high fluidity is required. On the other hand, the risk of segregation and the stability of these mixtures is ensured by the incorporation of a large volume of fine mineral additions. The present investigation is devoted to the study of the influence of three types of superplasticizers of different chemical compositions, namely: Combined Synthetic Polymers (CSP), Poly-Carboxylate Ether (PCE), and Modified Poly-Carboxylate Ether (MPCE) on the rheological behavior of self-compacting concrete (SCC) as well as on the mechanical properties at 3, 7, and 28 days of curing. Natural pozzolana (NP) and ground granulated blast furnace slag (GGBFS) were used as additions to stabilize the mixtures. The results revealed that the ether-based superplasticizer PCE gave the best workability and mechanical performance with low amounts (high efficiency). In addition, blast furnace slag promotes the obtaining of better properties whether in the fresh or hardened state compared to natural pozzolana.

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超减水剂外加剂的有效性评价:以细矿物填料增强自密实混凝土为例

在混凝土生产中使用高效减水剂已成为一种普遍做法，特别是在要求高流动性的情况下。另一方面，由于加入了大量的细矿物添加剂，这些混合物的分离风险和稳定性得到了保证。本文研究了三种不同化学成分的高效减水剂，即组合合成聚合物(CSP)、聚羧酸酯醚(PCE)和改性聚羧酸酯醚(MPCE)对自密实混凝土(SCC)在养护3,7和28天时的流变行为和力学性能的影响。采用天然火山灰(NP)和磨粒高炉矿渣(GGBFS)作为稳定剂。结果表明，低用量(高效率)的醚基高效减水剂PCE具有最佳的和易性和力学性能。此外，与天然火山灰相比，无论是在新鲜状态还是硬化状态下，高炉渣都能促进其获得更好的性能。

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来源期刊

Selected Scientific Papers Journal of Civil Engineering

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审稿时长

27 weeks