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Reactive Molecular Simulation on Water Confined in the Nanopores of the Calcium Silicate Hydrate Gel: Structure, Reactivity, and Mechanical Properties

硅酸盐 水合硅酸钙 无定形固体 硅酸钙 分子 材料科学 纳米孔 化学工程 氢键 破损 分子动力学 化学 化学物理 结晶学 纳米技术 有机化学 复合材料 计算化学 水泥 工程类
作者
Dongshuai Hou,Tiejun Zhao,Hongyan Ma,Zongjin Li
出处
期刊:Journal of Physical Chemistry C [American Chemical Society]
卷期号:119 (3): 1346-1358 被引量:263
标识
DOI:10.1021/jp509292q
摘要

Calcium silicate hydrate (C–S–H) is a mesoporous amorphous material with water confined in the gel pores, which provides the medium for investigating the structure, dynamics, and mechanical properties of the ultraconfined interlayer water molecules. In this study, C–S–H gels with different compositions expressed in terms of the Ca/Si ratio are characterized in the light of molecular dynamics. It is found that with increasing Ca/Si ratio, the molecular structure of the silicate skeleton progressively transforms from an ordered to an amorphous structure. The calcium silicate skeleton, representative of the substrate, significantly influences the adsorption capability, reactivity, H-bond network, and mobility of the interlayer water molecules. The structures were tested for mechanical properties by simulated uniaxial tension, and the mechanical tests associated with structural analysis reveal that the stiffness and cohesive force of C–S–H gel is weakened by both breakage of silicate chains and penetration of water molecules. In addition, the reactive force field is coupled with both the mechanical response and chemical response during the large tensile deformation process. On the one hand, the silicate chains, acting in a skeletal role in the layered structure, depolymerize to enhance the loading resistance. On the other hand, water molecules, attacking the Si–O and Ca–O bonds, dissociate into hydroxyls, which are detrimental to the cohesive force development.
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