使用混合型粉煤灰提高地质聚合反应性和耐热性

IF 1.3 4区工程技术 Q3 CONSTRUCTION & BUILDING TECHNOLOGY

Advances in Cement Research Pub Date : 2023-05-05 DOI:10.1680/jadcr.22.00079

Viengsai Phavongkham, S. Wattanasiriwech, D. Wattanasiriwech

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引用次数: 0

摘要

用C类粉煤灰（FA）制备的地质聚合物经常受到快速地质聚合速率的影响，使其难以工作。然而，F-FA类可能具有低反应性，因此必须添加外加剂来解决这个问题。这项研究强调了使用C类和F-FA类混合作为地质聚合物制备的前体来缓解上述问题。对前体配方和固液比（S/L）的优化进行了评估。当S/L=2.00和C级至F-FA级的50:50时，获得了最高的抗压强度（30.54MPa）以及合适的初始（136分钟）和最终（240分钟）凝结时间。在1000°C下对10 mm厚的地质聚合物面板进行180分钟的耐火试验，结果表明，在没有灾难性故障的情况下，反面的最高温度为～570-580°C，表明其能够用于阻燃应用。

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Enhancement of geopolymerization reactivity and thermal resistance using mixed types of fly ash

Geopolymer prepared with class C-fly ash (FA) often suffers from the flash geopolymerisation rate, making it difficult for working. Class F-FA, however, may have a low reactivity so admixture must be added to solve this problem. This research highlighted the use of mixed class C - and class F-FA as a precursor for geopolymer preparation to alleviate the above problems. Optimization of the precursor recipe and the solid to liquid ratio (S/L) was assessed. The highest compressive strength (30.54 MPa) and the suitable initial (136 min) and final (240 min) setting times were obtained with S/L = 2.00, and 50:50 of class C to class F-FA. The fire resistance test on a 10 mm-thick geopolymer panel at 1000°C for 180 min showed a maximum temperature of ∼570-580 °C on the reversed side without catastrophic failure, suggesting the ability to use in a fire retardation application.

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来源期刊

Advances in Cement Research 工程技术-材料科学：综合

CiteScore

3.70

自引率

5.00%

发文量

审稿时长

3.2 months

期刊介绍： Advances in Cement Research highlights the scientific ideas and innovations within the cutting-edge cement manufacture industry. It is a global journal with a scope encompassing cement manufacture and materials, properties and durability of cementitious materials and systems, hydration, interaction of cement with other materials, analysis and testing, special cements and applications.