A novel method to understand and quantify silicate tetrahedron in C-S-H by Time of flight secondary ion mass spectrometry analysis

Cement and Concrete Composites Pub Date : 2024-11-26 DOI:10.1016/j.cemconcomp.2024.105871

Yue Zhou, Linglin Xu, Zheyu Zhu, Yuting Chen, Zhongping Wang, Yun Gao, Kai Wu

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Abstract

The performance of cementitious materials is highly determined by calcium silicate hydrate (C-S-H). In this work, time of flight secondary ion mass spectrometry (TOF-SIMS) characterized by its high resolution was proposed to quantitatively determine the silicate tetrahedron content of C-S-H in a specific micron area. A C-S-H database in which the silicate content in local hydrates is quantified by ion intensity, was established for TOF-SIMS analysis. Results indicate that 8 negative ions and 19 positive ion fragments can be detected among the decomposition of C-S-H. By selecting the characteristic ions representing different silicate structures from ion fragments, the functional relationship between the intensity of characteristic ions and the silicate contents in C-S-H can be established. The quantification equation was proposed to calculate Qⁿ structure contents for various alite hydrates. The silicate structures with defects allocated in the control and pre-pressed sample was constructed successfully based on the TOF-SIMS quantitative results.

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通过飞行时间二次离子质谱分析了解和量化 C-S-H 中硅酸盐四面体的新方法

水泥基材料的性能在很大程度上取决于硅酸钙水合物（C-S-H）。在这项工作中，提出了以高分辨率为特点的飞行时间二次离子质谱法（TOF-SIMS），用于定量测定特定微米区域内 C-S-H 的硅酸盐四面体含量。为进行 TOF-SIMS 分析，建立了一个 C-S-H 数据库，其中通过离子强度量化了局部水合物中的硅酸盐含量。结果表明，在 C-S-H 分解过程中可检测到 8 个负离子和 19 个正离子片段。通过从离子碎片中选择代表不同硅酸盐结构的特征离子，可以建立特征离子强度与 C-S-H 中硅酸盐含量之间的函数关系。提出了量化方程来计算各种明矾石水合物的 Qn 结构含量。根据 TOF-SIMS 定量结果，成功构建了在对照和预压样品中分配有缺陷的硅酸盐结构。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Cement and Concrete Composites

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