Chloride diffusion resistance and chloride binding capacity of fly ash-based geopolymer concrete

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Chloride diffusion resistance and chloride binding capacity of fly ash-based geopolymer concrete

机译：粉煤灰基缘聚合物混凝土氯化物扩散抗性和氯化物结合能力

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This study evaluated the chloride diffusion resistance of low-calcium fly ash-based geopolymer concrete through electrical and bulk diffusion techniques. The geopolymer concretes were prepared using 12 different heat curing conditions; three temperatures of 60, 75 and 90 degrees C and four curing durations of 8, 12, 18 and 24 h, as well as ambient curing. The mechanical and transport properties and microstructural characteristics of the geopolymer concretes were examined. NT BUILD 492 chloride migration and ASTM C1556 bulk diffusion tests were carried out. Results showed that the chloride diffusion resistance and the chloride binding capacity of fly ash-based geopolymer concrete is very low. The fly ash-based geopolymer concrete appears to be suitable for applications where there are little or no chloride-related durability concerns.

机译：该研究评估了通过电和散装扩散技术的低钙粉煤灰基地质聚合物混凝土的氯化物扩散抗性。使用12种不同的热固化条件制备地质聚合物混凝土; 三个温度为60,75和90℃，4个固化持续时间为8,12,18和24小时，以及环境固化。检查了地质聚合物混凝土的机械和运输性能和微观结构特性。 NT构建492氯化物迁移和ASTM C1556散装扩散试验。结果表明，粉煤灰基地质聚合物混凝土的氯化物扩散抗性和氯化物结合能力非常低。粉煤灰基地缘聚合物混凝土似乎适用于氯化物相关耐用性问题的应用。

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《Cement & concrete composites》 |2020年第2020期|共19页
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正文语种 eng
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Geopolymer concrete; Heat curing; Low-calcium fly ash; Chloride diffusion; Chloride binding capacity;

机译：地质混凝土;热固化;低钙粉煤灰;氯化物扩散;氯化物结合能力;

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1. Chloride diffusion resistance and chloride binding capacity of fly ash-based geopolymer concrete [J] . Cement & concrete composites . 2020,第期

机译：粉煤灰基缘聚合物混凝土氯化物扩散抗性和氯化物结合能力
2. Chloride-induced corrosion of reinforcement in low-calcium fly ash-based geopolymer concrete [J] . Babaee M., Castel A. Cement and Concrete Research . 2016,第Null期

机译：氯化物诱导的低钙粉煤灰基缘混凝土增强腐蚀
3. Effect of sodium hydroxide concentration on chloride penetration and steel corrosion of fly ash-based geopolymer concrete under marine site [J] . P. Chindaprasirt, W. Chalee Construction and Building Materials . 2014,第JULa30期

机译：氢氧化钠浓度对海洋场地下粉煤灰基聚合物的氯离子渗透和钢腐蚀的影响
4. Modelling the Effect of Chloride Binding on Chloride Diffusion in Concrete Structures [C] . A. H. Al-Gadhib, I. A. Mahmoud, M. A. Shazali, International Conference on Computational Structures Technology . 2008

机译：氯化物结合对混凝土结构氯化物扩散的影响
5. Influence of pozzolanic admixtures on concrete pore water pH, chloride diffusion and chloride binding. [D] . Charvin, Stephanie. 1999

机译：火山灰外加剂对混凝土孔隙水pH，氯离子扩散和氯离子结合的影响。
6. Sulfate Resistance of Recycled Aggregate Concrete with GGBS and Fly Ash-Based Geopolymer [O] . Jianhe Xie, Jianbai Zhao, Junjie Wang, 2019

机译：GGBS和粉煤灰基地质聚合物对再生骨料混凝土的抗硫酸盐性
7. Revised Model of Chloride Diffusion in Concrete Bridge by Considering Complex Action of Load and Chloride Binding Capacity [O] . Xiang, Yiqiang, Guo, Dongmei 2014

机译：考虑荷载和氯离子结合力的复杂作用的混凝土桥梁氯离子扩散修正模型
8. Correlation beween Wavelength Dispersive X-Ray Fluorescence (WDXRF) Analysis of Hardened Concrete for Chlorides vs. Atomic Absorption (AA) Analysis in Accordance With AASHTO-T-260; Sampling and Testing for Chloride Ion in Concrete and Concrete Raw Materials, Procedure B, Acid-Soluble Chloride Ion Content by Atomic Absorption. [R] . Simonds, K. M. 2014

机译：根据aasHTO-T-260，氯化硬化混凝土的波长色散X射线荧光（WDXRF）分析与原子吸收（aa）分析之间的相关性;混凝土和混凝土原料中氯离子的取样和测试，程序B，原子吸收法测定酸溶性氯离子含量。

Chloride diffusion resistance and chloride binding capacity of fly ash-based geopolymer concrete

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