替代粘合剂的水化和碳酸化

Bettina Kraft, R. Achenbach, H. Ludwig, M. Raupach
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引用次数: 8

摘要

水泥行业因其应承担的高二氧化碳排放量而受到越来越多的公众关注。改善水泥生产碳足迹的一种方法是开发替代粘合剂,这种粘合剂可以以更少的能源消耗生产。这些替代粘结剂具有降低熟料与水泥比或根本不含波特兰水泥的特点。钢筋的防腐,其要求与标准水泥相同。要进行这种评价,必须对水化过程中形成的产物、孔溶液的组成和孔结构以及它们对抗碳酸化的影响有一个基本的了解。在本研究中,提出了各种替代粘结剂,例如由煅烧粘土或改性钢渣、碱活化材料、CA水泥和C-S-H粘结剂组成的新型复合水泥。对砂浆和水泥浆体进行的研究表明,砂浆和水泥浆体在水化、微观结构发育和ph值方面存在差异。碳化引起的微观结构和相组合的变化,以及在二氧化碳含量升高1 vol.-%时对不同粘结剂进行碳化测试的适用性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Hydration and Carbonation of Alternative Binders
The cement industry gains increasing public attention because of the high CO2 emissions for which it is accountable. One approach to improve the carbon footprint of cement production is the development of alternative binders, which can be produced with less energy consumption. These alternative binders have a reduced clinker to cement ratio or contain no Portland cement at all. For the corrosion protection of the reinforcement, the same requirements apply as for standardized types of cement. To perform this evaluation, a basic understanding is necessary of the products formed during hydration, the composition of the pore solutions and pore structure, and their influence on the resistance to carbonation. In this study, various alternative binders, such as novel types of composite cement with calcined clays or modified steel mill slag, alkali-activated materials, CA cement, and a C-S-H binder, are presented. The conducted investigations at mortars and cement pastes show the differences in hydration, microstructure development, and pH. The changes in microstructure and phase assemblage due to carbonation and the suitability of carbonation testing at an elevated CO2 content of 1 vol.-% for the different binders are also presented.
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