用纯磷酸合成酸基粉煤灰土工聚合物与 P 浸出液活化剂的比较

Euricia Mkhonto, T. Mashifana, N. Sithole
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引用次数: 0

摘要

酸性土工聚合物(ABG)作为普通硅酸盐水泥的生态友好型替代品已受到关注。本研究利用商品 H3PO4 和污水污泥中的替代性 P 浸出液活化粉煤灰,合成了 ABG。合成 ABG 的摩尔浓度分别为 4M、6M、8M、10M 和 12M,而 P 浸出液土工聚合物(PFA)的液固比为 0.2-0.5。无压抗压强度(UCS)用于测量土工聚合物的性能,扫描电子显微镜(SEM)和傅立叶变换红外光谱(FTIR)也对其进行了研究。P 浓度高于替代 P 源,但 Al 浓度较低,导致 UCS 低于 ABG FA。用 8M 活化的 ABG FA 的 UCS 为 11.53 兆帕。ABG FA 的强度归因于 Si-O-P-O-Si、(PO4)5-、(AlO4)5 和 Al-O-Si 网络以及 H2PO4 参与了土工聚合。PFA 显示出 Si-O-Al-O-P 单元和 P-O 振带的形成,其微观结构由覆盖着一些微小胶状颗粒的仙人球组成。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Synthesis of Acid-Based Fly Ash Geopolymer with Pure Phosphoric Acid Compare with P-Leachate Activator
Acid-based geopolymers (ABG) have gained attention as eco-friendly alternatives to Ordinary Portland cement. This study synthesized ABG by activating fly ash with commercial H3PO4 and an alternative P leachate from sewage sludge. The ABG was synthesized at different molar concentrations of 4M, 6M, 8M, 10M, and 12M, while P-leachate geopolymer (PFA) was synthesized with liquid/solid ratios of 0.2-0.5. The unconfined compressive strength (UCS) was used to measure the geopolymer performance, which was also studied using scanning electron microscopy (SEM) and Fourier transform infrared spectroscopy (FTIR). The P concentration was higher than the alternative P source; however, the Al concentration was low, resulting in a lower UCS compared to ABG FA. ABG FA activated with 8M reported a UCS of 11.53 MPa. The strength of ABG FA was attributed to the Si-O-P-O-Si, (PO4)5-, (AlO4)5, and Al-O-Si networks and the participation of H2PO4-in geopolymerization. The PFA exhibited the formation of a Si-O-Al-O-P unit and a P-O vibration band, and the microstructure was composed of cenospheres covered with some minor gelatinous particles.
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