Utilization of high fly ash dosage to reduce cement consumption in concrete formulations

V. Davidová, Tomáš David, P. Reiterman
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Abstract

The concrete production is responsible for high proportion of total carbon dioxide emission due to enormous consumption of Portland cement. This traditional binder system is due to high autogenous emission during calcination the main carrier of such negative environmental impact. The effective way to reduce the use of Portland cement is to replace that this binding material exhibiting lower energy demandingness. This paper deals with the utilization of fly ash as Portland cement replacement, which is frequently applied in concrete industry. The paper deals the highest replacement level in accordance with valid regulations. The experimental program was focused on the properties of fresh concrete mixture and basic physical and mechanical properties of hardened concrete. The attained results confirmed good potential of this approach, however the increase of plasticizer dosage was necessary to maintain a similar consistency of fresh mixture. That is why the fresh mixture exhibited lower level of air content.
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利用高粉煤灰用量减少混凝土配方中的水泥用量
由于硅酸盐水泥的巨大消耗量,混凝土生产要对二氧化碳排放总量的高比例负责。这种传统的粘合剂系统在煅烧过程中会产生大量的自燃气体,是造成这种负面环境影响的主要原因。减少硅酸盐水泥使用量的有效方法是用这种能耗较低的粘结材料取而代之。本文论述了粉煤灰作为硅酸盐水泥替代品的利用,这种替代品在混凝土行业中应用频繁。本文讨论的是符合有效法规的最高替代等级。实验项目的重点是新拌混凝土的性能以及硬化混凝土的基本物理和机械性能。实验结果证实了这种方法的良好潜力,但为了保持新拌混凝土的稠度,必须增加增塑剂用量。因此,新拌混凝土的含气量较低。
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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