Mathematical modelling and factors affecting aerated concrete with floating ash cenospheres
Takibayuly S. Cakanov K. Kurmanov A. Ussenkulov Z. Seitkazinov O.
15 July 2025Lviv Polytechnic National University
Architectural Studies
2025#11Issue 297 - 105 pp.
Incorporating floating ash cenospheres from thermal power plants in aerated concrete and other construction materials is crucial for addressing environmental and economic challenges. The principal objective of the research was to explore the incorporation of fly ash cenospheres sourced from Kazakhstan into the production of aerated concrete. The study used mathematical modelling employing methods such as analysis, comparison, synthesis, and a systematic approach. Significant findings were obtained from investigation into the properties of aerated concrete incorporating floating ash cenospheres. Through rigorous mathematical modelling and experimentation, vital correlations were uncovered between various factors, such as composition, curing conditions, and production methods – and the resulting properties of the concrete. Observations revealed that the utilisation of floating ash cenospheres led to tangible improvements in multiple key properties of aerated concrete. Notably, a substantial increase in compressive strength, a significant decrease in density, and a remarkable enhancement in thermal insulation properties were noted compared to conventional concrete formulations. Furthermore, the efficacy of mathematical modelling in accurately predicting and optimising concrete properties was showcased. By leveraging this approach, not only could the impact of different factors on concrete performance be anticipated, but production processes could also be refined to achieve desired outcomes efficiently. The results of this study carry practical significance for the construction sector, presenting avenues to refine the manufacturing process of aerated concrete and elevate its efficacy.
construction materials , engineering applications , mechanical behaviour , properties analysis , sustainable building
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Toraighyrov University, 64 Lomov Str, Pavlodar, 140008, Kazakhstan
Mukhtar Auezov South Kazakhstan University, 5 Tauke Khan Ave, Shymkent, 160012, Kazakhstan
International Educational Corporation, 28 Ryskulbekova Str, Almaty, 050043, Kazakhstan
Toraighyrov University
Mukhtar Auezov South Kazakhstan University
International Educational Corporation
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