硅粉
抗压强度
聚合物
偏高岭土
材料科学
粉煤灰
硅酸铝
复合材料
熔渣(焊接)
热稳定性
残余强度
陶瓷
化学工程
化学
生物化学
工程类
催化作用
作者
Bosong Cao,Yi Li,Peipeng Li
出处
期刊:Materials
[Multidisciplinary Digital Publishing Institute]
日期:2024-06-18
卷期号:17 (12): 2975-2975
被引量:4
摘要
This paper investigates the high temperature resistance performance and mechanism of potassium-activated blended precursor geopolymer with silica fume. The failure morphology, volume, and mass loss, compressive strength deterioration, hydration production, and pore structure are measured and analyzed. The results show that introducing slag into fly ash-based geopolymer could greatly improve the 28 d compressive strength but reduce the thermal stability. In contrast, the partial substitution of fly ash by metakaolin contributes to excellent high temperature resistance with slightly enhanced 28 d compressive strength. After being exposed at 800 °C, the residual compressive strength of F7M3 remains at 37 MPa, almost 114% of the initial ambient-temperature strength. An appropriately enlarged silica fume content in geopolymer results in increased compressive strength and enhanced thermal stability. However, an excessive silica fume content is detrimental to the generation of alkali-aluminosilicate gels and ceramic-like phases and thus exacerbates the high temperature damage.
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