Whether do nano-particles act as nucleation sites for C-S-H gel growth during cement hydration?

水泥 成核 材料科学 纳米- 化学工程 色散(光学) 超纯水 纳米颗粒 火山灰 硅粉 胶凝的 粒子(生态学) 降水 复合材料 硅酸盐水泥 化学 纳米技术 有机化学 工程类 物理 海洋学 光学 地质学 气象学
作者
Deyu Kong,Senle Huang,David J. Corr,Yang Yang,Surendra P. Shah
出处
期刊:Cement & Concrete Composites [Elsevier BV]
卷期号:87: 98-109 被引量:142
标识
DOI:10.1016/j.cemconcomp.2017.12.007
摘要

In this study, three modelling experiments were designed to investigate whether nano-particles incorporated in the cement paste act as nucleation sites for CSH gel growth during cement hydration. The nano-particles with (nano-SiO2) and without (nano-TiO2) pozzolanic reactivity were used. In the first experiment, both the cement and nano-particles were dispersed in water to prepare dilute cement paste, in which the cement and nano-particles can contact each other. In the second one, the cement particles were laid inside a filter paper funnel and immersed in tap and ultrapure water with nano-particles dispersed, in order to separate the cement particles with nano-particles by using the filter paper. In the third one, large clinker particle was embedded in resin, surface-polished and then exposed upside down in ultrapure water with and without nano-particles dispersed. After hydration for 7 days, the hydration products in the paste or the nano-particle dispersion were observed by using TEM and the hydrated surface of the embedded clinkers were detected by using SEM. Based on the experimental results and the detailed discussions by using the classic nucleation theory, it was found that there may have no nucleus function of the nano-particles for the CSH gel precipitation during cement hydration, at least in the hydrating system with nano-silica and nano-TiO2 addition. It was proposed to more reasonably explain the observations in the three modelling experiments by using the topochemical reaction instead of the through-solution mechanism for the CSH gel formation.

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