水泥微观结构模型:其重要性、实用性和当前的局限性

Q2 Engineering
Shashank Bishnoi, J. Bullard
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引用次数: 0

摘要

微观结构模型试图在几百纳米到几百微米的尺度上,根据结构或化学成分来解释或预测各种材料特性。因此,这些模型弥合了原子模型和连续体方法之间的比例差距,从而有助于建立和验证这些比例之间的比例关系。微观结构模型已应用于胶结材料至少四十年,以帮助了解凝结、强度发展、流变特性、力学行为和传输特性。这封信描述了水泥微观结构建模在几个对工程很重要的领域的现状。这并不是一篇详尽的综述,而是强调了现在可以应用于水泥结合料性能不同方面的模型类型。特别注意每种模式的挑战或局限性。这样做是为了促进模型的明智使用和解释,特别是为了表明未来的研究可以在哪些方面突破微观结构模型目前无法解决的问题。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Microstructure models of cement: their importance, utility, and current limitations
Microstructure models seek to explain or predict various material properties in terms of the structure or chemical composition at scales of several hundred nanometres to several hundred micrometres. Such models therefore bridge the scaling gap between atomistic models and continuum methods, and consequently can help establish and validate scaling relations across those scales. Microstructure models have been applied to cementitious materials for at least four decades to help understand setting, strength development, rheological properties, mechanical behavior, and transport properties. This letter describes the current state of cement microstructure modelling in several areas that are important for engineering.  It is not meant to be an exhaustive review, instead highlighting the kinds of models that can now be applied to different aspects of cement binder behaviour. Special attention is paid to challenges or limitations of each kind of model. This is done to promote the judicious use and interpretation of models and especially to indicate where future research could make inroads on problems that are currently inaccessible to microstructure models.
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来源期刊
RILEM Technical Letters
RILEM Technical Letters Materials Science-Materials Science (all)
CiteScore
5.00
自引率
0.00%
发文量
13
审稿时长
10 weeks
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