Effects of Ground and Classified Fly Ash on Properties of High-Performance Concrete

M. K. H. Patoary, P. Nimityongskul
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Abstract

The investigation presented in this study shows an example of the improvements of fly ash fineness achieved by a physical process, air-classification and a mechanical process, grinding. To make high-performance concrete, three different types of fly ash namely, original, air-classified, and ground fly ash, with different finenesses was used as cement replacement. The percentage replacement of cement by each type of fly ash was used as 0, 10, 15 and 20% by weight of cementing materials. Finally, the results were compared with silica fume concrete. The results showed that substitution of part of the cement with original or classified fly ash produces concrete mixtures with greater workability than the control as measured by slump and slump-flow. On the contrary, it was found that the ground fly ash, having more or less the same degree of fineness as classified fly ash resulted in a lower workability due to the loss of its spherical shape and lubricant effect. The inclusion of original fly ash reduced the early strength and this reduction was more significant with the increase of percentage replacements. Classified and ground fly ash improved the early strength. The long-term strength development of classified and ground fly ash concrete was found to be considerably higher than that of control concrete for all the percentage replacements.
磨粒粉煤灰和分级粉煤灰对高性能混凝土性能的影响
本研究中提出的调查显示了通过物理过程-空气分级和机械过程-磨矿来改善粉煤灰细度的一个例子。为了制备高性能混凝土,采用不同细度的三种不同类型的粉煤灰,即原始粉煤灰、空气分级粉煤灰和地面粉煤灰作为水泥替代品。每种粉煤灰替代水泥的百分比分别为胶结材料重量的0%、10%、15%和20%。最后,将试验结果与硅灰混凝土进行了比较。结果表明,用原粉煤灰或分级粉煤灰替代部分水泥后,混凝土的和易性比用坍落度和坍落度流动测量的对照混凝土要好。而细度与分级粉煤灰大致相同的地面粉煤灰,由于失去了其球形和润滑作用,其和易性较低。原粉煤灰掺入降低了材料的早期强度,且随着掺入比例的增加,这种降低更为显著。分级和碾磨粉煤灰提高了早期强度。分级粉煤灰混凝土和地面粉煤灰混凝土的长期强度发展在所有替换百分比下都明显高于对照混凝土。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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