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层状双氢氧化物衍生混合氧化物的比表面积对水泥浆体流变性能和孔隙率的影响

Relevance of Specific Surface of Mixed Oxide Derived from Layered Double Hydroxides on the Rheological Properties and Porosity of Cement Pastes.

作者信息

C Dos Santos Caio, Almeida Adriana A, Pulcinelli Sandra H, Santilli Celso V

机构信息

Chemistry Institute of São Paulo State University (UNESP), Araraquara 14800-900, SP, Brazil.

出版信息

ACS Appl Mater Interfaces. 2025 Mar 5;17(9):13050-13064. doi: 10.1021/acsami.4c01949. Epub 2024 Jun 5.

DOI:10.1021/acsami.4c01949
PMID:38837200
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11891860/
Abstract

Cement-based products are the synthetic materials most used by humans, with consequent environmental impacts. One strategy that can assist in mitigating the adverse environmental effects of these materials involves the incorporation of multifunctional nanostructured additives. The objective of this work was to demonstrate the efficacy of incorporating mixed oxides (MO) derived from layered double hydroxides (LDH) to control the rheology and porosity of cement-based matrices. Thermal aging of LDH enabled the preparation of MO with different specific surface areas (SSA) for incorporation in different amounts in Portland cement. A low proportion of MO and low SSA increased workability by 22%. In contrast, a high proportion of MO and high SSA led to a 2.4-fold acceleration of cement consolidation and a 36.9% decrease of the porosity of the composite. These features could be attributed to additive-matrix interactions, with the LDH memory effect playing key roles in the cement crystal seed process and in competition for the absorption of free water within the cement paste. Therefore, the unprecedent results obtained suggest that the quantity and SSA of MO are key parameters to fine-tune the paste rheology and structure of hidrated cement. The MO materials showed easy adaptability and excellent potential for use as multifunctional additives in the production of eco-friendly, high-performance cement paste formulations with controllable properties according to the desired application.

摘要

水泥基产品是人类使用最多的合成材料,会对环境产生相应影响。一种有助于减轻这些材料对环境不利影响的策略是加入多功能纳米结构添加剂。这项工作的目的是证明掺入源自层状双氢氧化物(LDH)的混合氧化物(MO)以控制水泥基基体的流变学和孔隙率的有效性。对LDH进行热老化处理能够制备出具有不同比表面积(SSA)的MO,并以不同的量掺入波特兰水泥中。低比例的MO和低SSA可使工作性提高22%。相反,高比例的MO和高SSA会使水泥固结加速2.4倍,复合材料的孔隙率降低36.9%。这些特性可归因于添加剂与基体的相互作用,LDH记忆效应在水泥晶体成核过程以及水泥浆体中自由水吸收竞争中起关键作用。因此,所获得的前所未有的结果表明,MO的数量和SSA是微调浆体流变学和水化水泥结构的关键参数。MO材料显示出易于适应性,并且具有作为多功能添加剂用于生产具有可控性能的环保型高性能水泥浆配方的巨大潜力,具体性能可根据所需应用进行调整。

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