Research for Modification of Concrete With Ash-Containing Waste of Dnistrovska PSPS (Ukraine)

N. Dmytriieva, I. Agafonova, Nina Bostan
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Abstract

The object of reseaerch is concrete samples modified with ash-containing fillers and plasticizers. As practice shows, the use of secondary resources is an important issue in the field of construction and entails significant savings. The issue is also considered from the point of view of environmental protection. The study is aimed at determining the effect of modification of concrete with ash-containing waste on the strength characteristics using the example of the hydroelectric power station of the Dnistrovska PSPS (Sokyriany district, Chernivtsi region, Ukraine). The main hypothesis of the study is the assumption that varying components such as fly ash, water glass, and superplasticizers will make it possible to obtain concrete with specified strength characteristics. To achieve the aim, the authors decided to use in the study the superplasticizer SikaPlast-520N and BETO-plast, Portland cement M400 and sands of the quarries of the Parkan and Suklei regions (Moldova). According to the plan of the experiment, studies of the influence of hardening conditions on the structure and properties of modified concrete samples were carried out. Destructive testing of samples was carried out in the laboratory directly on a hydraulic press.

The results of experiments without the addition of liquid glass and the introduction of a minimum amount of fly ash and experiments with the introduction of a minimum amount of fly ash and the addition of 3 % water glass are presented. To determine the dynamics of strength gain, tests were carried out on 7, 14 and 28 days. The presented results of the study of the samples on day 7 show a gain of more than 50 % strength. This indicates the possibility of reducing the curing period of structural concrete in the formwork system. A more complete and objective idea of the quality of concrete is possible while taking into account the average strength of concrete and its homogeneity.

Today, there is no unified theory that can relate the different properties of cement and filler to the final properties of a composite material. The issue of modifying concrete compositions when using fine aggregate from other quarries requires additional research. At the same time, the results of the experiment show that the use of microfillers based on wastes from the Dnistrovska PSPS provide ample opportunities not only for saving binders, but also for improving the physical, mechanical and operational characteristics of concrete.
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乌克兰Dnistrovska电厂含灰废料改性混凝土的研究
以含灰分填料和增塑剂改性的混凝土样品为研究对象。实践表明,利用二次资源是建筑领域的一个重要问题,可以节省大量费用。这个问题也从环境保护的角度来考虑。这项研究的目的是利用Dnistrovska PSPS水电站(乌克兰切尔诺夫茨省Sokyriany区)的例子,确定用含灰废物改性混凝土对强度特性的影响。本研究的主要假设是假设不同的组分,如粉煤灰、水玻璃和高效减水剂将有可能获得具有特定强度特性的混凝土。为了实现这一目标,作者决定在研究中使用高效减水剂SikaPlast-520N和beto - plasast,波特兰水泥M400和Parkan和Suklei地区(摩尔多瓦)采石场的沙子。根据试验方案,研究了硬化条件对改性混凝土试样结构和性能的影响。样品的破坏性测试直接在实验室的液压机上进行。介绍了不添加液体玻璃和添加最少粉煤灰的实验结果以及添加最少粉煤灰和添加3%水玻璃的实验结果。为了确定强度增加的动态,分别在第7、14和28天进行了试验。在第7天对样品进行研究的结果表明,强度增加了50%以上。这表明了在模板体系中减少结构混凝土养护期的可能性。当考虑到混凝土的平均强度及其均匀性时,对混凝土质量有一个更完整和客观的认识是可能的。目前,还没有统一的理论可以将水泥和填料的不同特性与复合材料的最终特性联系起来。当使用来自其他采石场的细骨料时,修改混凝土成分的问题需要进一步研究。同时,实验结果表明,使用基于Dnistrovska PSPS废料的微填料不仅为节省粘结剂提供了充足的机会,而且还改善了混凝土的物理、机械和操作特性。
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