Synthesis of MNS@PDMS emulsion for enhancing hydrophobicity in cementitious materials with limited strength loss

IF 13.1 1区工程技术 Q1 CONSTRUCTION & BUILDING TECHNOLOGY Cement & concrete composites Pub Date : 2025-03-01 Epub Date: 2024-12-02 DOI:10.1016/j.cemconcomp.2024.105875

Chen Liang , Mingxu Chen , Dongbing Jiang , Pengkun Hou , Deqiang Zhao , Shoude Wang , Ziyuan Yu , Piqi Zhao , Lingchao Lu

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Abstract

Developing hydrophobic agents that minimize the strength loss of bulk hydrophobic cementitious materials (BHCM) remains a formidable challenge. Substances such as siloxanes can hinder cement mineral hydration and prevent the formation of an initial network structure during the early hydration stages. In this study, a novel hydrophobic emulsion in which polydimethylsiloxane (PDMS) wrapped with modified nano silica (MNS) is designed to enhance the hydrophobic property of cementitious materials while minimizing strength loss. The results show that BHCM exhibits good hydrophobicity (water contact angle 121.8°) while significantly reducing strength loss (decreased by 10.3 %). The presence of MNS effectively shields PDMS from direct contact with cement minerals during the initial stages. Moreover, MNS can react with portlandite (CH) to generate C-S-H phase and optimize the pore structure of hardened cement pastes. This study contributes to promoting the structure-function integration of cement composites and achieving an extended service life for concrete.

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有限强度损失增强胶凝材料疏水性乳液MNS@PDMS的合成

开发疏水剂，使大块疏水胶凝材料（BHCM）的强度损失最小化，仍然是一个艰巨的挑战。硅氧烷等物质会阻碍水泥矿物水化，并在水化早期阶段阻止初始网络结构的形成。在本研究中，设计了一种新型疏水乳液，其中聚二甲基硅氧烷（PDMS）包裹改性纳米二氧化硅（MNS），以提高胶凝材料的疏水性能，同时最大限度地减少强度损失。结果表明：BHCM具有良好的疏水性（水接触角121.8°），同时显著降低了强度损失（降低了10.3%）；在初始阶段，MNS的存在有效地屏蔽了PDMS与水泥矿物的直接接触。MNS还能与硅酸盐（CH）反应生成C-S-H相，优化硬化水泥浆体的孔隙结构。本研究有助于促进水泥复合材料的结构与功能的融合，实现混凝土的延长使用寿命。

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来源期刊

Cement & concrete composites 工程技术-材料科学：复合

CiteScore

18.70

自引率

11.40%

发文量

459

审稿时长

65 days

期刊介绍： Cement & concrete composites focuses on advancements in cement-concrete composite technology and the production, use, and performance of cement-based construction materials. It covers a wide range of materials, including fiber-reinforced composites, polymer composites, ferrocement, and those incorporating special aggregates or waste materials. Major themes include microstructure, material properties, testing, durability, mechanics, modeling, design, fabrication, and practical applications. The journal welcomes papers on structural behavior, field studies, repair and maintenance, serviceability, and sustainability. It aims to enhance understanding, provide a platform for unconventional materials, promote low-cost energy-saving materials, and bridge the gap between materials science, engineering, and construction. Special issues on emerging topics are also published to encourage collaboration between materials scientists, engineers, designers, and fabricators.