热容,等温压缩率,吸附等等热和热膨胀的水限制在C-S-H

Tulio Honorio, Fatima Masara, Farid Benboudjema
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引用次数: 8

摘要

众所周知,纳米约束会影响流体的性质。限制在C-S-H中的水的一些热机械性能的变化仍有待量化。在这里,我们进行了分子模拟,以获得C-S-H中的吸附等温线作为孔径(跨越层间到大凝胶孔)的函数。然后,利用大正则系综中的涨落公式计算了承压水的等温压缩率(及其倒数,体积模量)、热容量、热膨胀系数和热压系数以及等等吸附热作为(纳米)孔径的函数。所有这些性质都表现出孔径依赖性,检索基间距大于2nm的体积值。为了理解性质随约束变化的原因,我们计算了结构描述符,包括径向分布函数、表观密度、氢键计数和水的多余对熵作为约束的函数。这些描述符揭示了承压水中显著的结构变化。热容与表观密度、熵和氢键数呈良好的线性相关。水属性值作为基底间距的函数是水泥基材料多尺度建模的宝贵输入。
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Heat capacity, isothermal compressibility, isosteric heat of adsorption and thermal expansion of water confined in C-S-H

Nanoconfinement is known to affect the property of fluids. The changes in some thermo-mechanical properties of water confined in C-S-H are still to be quantified. Here, we perform molecular simulations to obtain the adsorption isotherms in C-S-H as a function of the pore size (spanning interlayer up to large gel pores). Then, fluctuations formula in the grand canonical ensemble are used to compute the isothermal compressibility (and its reciprocal, the bulk modulus), the heat capacity, the coefficient of thermal expansion and thermal pressure, and the isosteric heat of adsorption of confined water as a function of the (nano)pore size. All these properties exhibit a pore size dependence, retrieving the bulk values for basal spacing above 2 nm. To understand why property changes with confinement, we compute structural descriptors including the radial distribution function, apparent density, hydrogen bonds counting, and excess pair entropy of water as a function of the confinement. These descriptors reveal significant structural changes in confined water. The heat capacity shows a good linear correlation with the apparent density, entropy, and hydrogen bond number. The values of water property as a function of the basal spacing are a valuable input for multiscale modeling of cement-based materials.

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