高岭石和蒙脱石煅烧粘土对石灰石煅烧粘土水泥(LC3)的硫酸盐平衡、早期水化和人工孔隙溶液的影响

IF 3.4 3区 工程技术 Q2 CONSTRUCTION & BUILDING TECHNOLOGY Materials and Structures Pub Date : 2024-09-21 DOI:10.1617/s11527-024-02462-3
Micael Rubens Cardoso da Silva, Jose da Silva Andrade Neto, Brant Walkley, Ana Paula Kirchheim
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引用次数: 0

摘要

本研究探讨了高岭石(CK)和蒙脱石(CM)煅烧粘土对石灰石煅烧粘土水泥(LC3)的硫酸盐平衡、早期水化和人工孔隙溶液的物理化学影响。在 72 小时内,分别通过等温量热法、抗压强度、ICP-OES 和 zeta 电位评估了细度、粘土溶解度和离子吸附能力的影响。提高两种煅烧粘土的细度对硫酸盐耗竭动力学和抗压强度没有显著影响,煅烧粘土表面对 Ca2+ 离子的吸附不是造成硫酸盐需求差异的主要因素。CK 中 Al 离子的溶解度较高,这加剧并加速了乙长石的形成,从而争夺了可用的硫酸盐。我们证明了化学效应对 LC3 的硫酸盐平衡具有重大影响,并揭示了与偏高岭土(MK)相比,蒙脱石等替代粘土的影响较小,这可以最大限度地减少 LC3 与偏高岭土混合时硫酸盐加速消耗的问题。
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Effects of kaolinite and montmorillonite calcined clays on the sulfate balance, early hydration, and artificial pore solution of limestone calcined clay cements (LC3)

This study investigated the physicochemical effects of kaolinite (CK) and montmorillonite (CM) calcined clays on the sulfate balance, early hydration, and artificial pore solution of limestone calcined clay cement (LC3). The effects of fineness, clay dissolution, and ion-adsorption capacity were evaluated by isothermal calorimetry, compressive strength, ICP-OES, and zeta potential within 72 h, respectively. Increasing the fineness of both calcined clays did not significantly affect the sulfate depletion kinetics or the compressive strength and the adsorption of Ca2+ ions onto the calcined clay’s surface is not the main factor responsible for differences in sulfate demand. The higher dissolution of ions Al in CK provided an intensified and accelerated formation of ettringite that competes for the available sulfate. We demonstrate that the chemical effects have a significant impact on the sulfate balance of LC3, revealing the lesser impact of alternative clays like montmorillonite compared to metakaolin (MK) which can minimize the problem of accelerated sulfate depletion of LC3 mixes with MK.

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来源期刊
Materials and Structures
Materials and Structures 工程技术-材料科学:综合
CiteScore
6.40
自引率
7.90%
发文量
222
审稿时长
5.9 months
期刊介绍: Materials and Structures, the flagship publication of the International Union of Laboratories and Experts in Construction Materials, Systems and Structures (RILEM), provides a unique international and interdisciplinary forum for new research findings on the performance of construction materials. A leader in cutting-edge research, the journal is dedicated to the publication of high quality papers examining the fundamental properties of building materials, their characterization and processing techniques, modeling, standardization of test methods, and the application of research results in building and civil engineering. Materials and Structures also publishes comprehensive reports prepared by the RILEM’s technical committees.
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