Application of Micromechanics on Alkali-activated Materials

机译：微观力学在碱活化材料中的应用

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Research of alkali-activated materials has been a traditional domain of chemists. This paper exploits contribution of micromechanics to the subject. A new model for volumetric evolution of chemical phases is formulated. The first homogenization level identifies elasticity on the scale of N-A-S-H gel. Nanoindentation sensing technique yielded the intrinsic Young's modulus of N-A-S-H gel as～18 GPa, which was further downscaled to the solid gel particles. Percolation theory had to be introduced to match an early-age elasticity. The second homogenization level takes into account an unreacted fly ash. Homogenization models match well the experimental elasticity and demonstrate stiffening of N-A-S-H gel, induced by increasing packing density of the solid gel particles. The percolation model explains a long setting time of alkali-activated materials.

机译：碱活化材料的研究一直是化学家的传统领域。本文利用微力学对该主题的贡献。建立了化学相体积演化的新模型。第一个均质化水平确定了N-A-S-H凝胶的弹性。纳米压痕传感技术产生的N-A-S-H凝胶固有的杨氏模量约为18 GPa，并进一步缩小为固体凝胶颗粒。必须引入渗流理论以匹配早期弹性。第二均质水平考虑了未反应的粉煤灰。均质化模型很好地匹配了实验弹性，并表明了N-A-S-H凝胶的变硬，这是由于增加了固体凝胶颗粒的堆积密度而引起的。渗流模型说明了碱活化材料的凝固时间长。

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来源
《International ceramics congress》|2011年|p.75-85|共11页
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作者
Vit Smilauer; Frantisek Skvara; Jiri Nemecek; Lubomir Kopecky; Petr Hlavacek;
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正文语种
中图分类陶瓷工业;工程材料一般性问题;
关键词
n-a-s-h gel; nanoindentation; alkali-activation; fly ash; metakaolin; micromechanics; elasticity; percolation; homogenization;

机译：n-a-s-h凝胶;纳米压痕碱活化粉煤灰偏高岭土;微观力学;弹性;渗滤;均质化;

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机译：矿井尾矿作为现场应用的碱活性材料的前体

Application of Micromechanics on Alkali-activated Materials

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