Effect of Class F Fly Ash on Strength Properties of Concrete

Anjeza Alaj, Visar Krelani, Tatsuya Numao
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Abstract

Reducing the amount of CO2 emissions in the environment is one of the priorities of the EPA and other environmental agencies. A way to reduce CO2 emissions is by using fly ash in the concrete industry. Aside from environmental benefits, fly ash has numerous quality advantages; some of the positive effects were recognized earlier; however, in this research, the objective is to replace cement with a different percentage of class F fly ash with a low CaO content to produce sustainable concrete. Laboratory tests were performed to examine the rational percentage of cement replaced by class F fly ash in ordinary concrete C–25/30 and high-performance concrete C–50/60. In total, twelve different mix designs were prepared to examine consistency, setting time, shrinkage, and compressive strength in different periods of curing for more than 600 days. Using recycled material in new buildings still has some obstacles, but the future of construction must be green, so this research indicates that the objective of producing ordinary and high-performance concrete was achieved by replacing 30% of cement with class F fly ash. Doi: 10.28991/CEJ-2023-09-09-011 Full Text: PDF
F类粉煤灰对混凝土强度性能的影响
减少环境中的二氧化碳排放量是美国环保署和其他环境机构的首要任务之一。减少二氧化碳排放的一种方法是在混凝土工业中使用粉煤灰。除了环境效益外,粉煤灰还具有许多质量优势;一些积极的影响早前就被认识到了;然而,在本研究中,目标是用不同比例的低CaO含量的F级粉煤灰替代水泥,以生产可持续混凝土。通过室内试验研究了普通混凝土C-25/30和高性能混凝土C-50/60中F级粉煤灰替代水泥的合理掺量。总共准备了12种不同的配合比设计,测试了600多天不同时期养护的稠度、凝结时间、收缩率和抗压强度。在新建筑中使用再生材料仍然存在一些障碍,但未来的建筑必须是绿色的,因此本研究表明,用F级粉煤灰代替30%的水泥,可以实现生产普通和高性能混凝土的目标。Doi: 10.28991/CEJ-2023-09-09-011全文:PDF
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