Properties of Fine-Grained Concrete Mixtures during the Construction of Monolithic Structures

The article presents the results and methods of studying the rheological properties of fine-grained concrete mixtures with various additives, as well as the regression equation obtained by calculations using the apparatus of mathematical analysis, which shows the significance of the parameters inclu...

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Bibliographic Details
Published in:IOP conference series. Materials Science and Engineering 2020-04, Vol.829 (1), p.12018
Main Authors: Aruova, L B, Ospanova, Z N, Gordienko, B S, Alibekova, N T, Kalieva, Zh E, Urkinbaeva, Zh I, Nurbaeva, M N
Format: Article
Language:English
Subjects:
Additives
Aggregates
Concrete
Concrete construction
Fractionation
Mathematical analysis
Mechanical properties
Physical properties
Process parameters
Raw materials
Rheological properties
Sealing
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Summary:The article presents the results and methods of studying the rheological properties of fine-grained concrete mixtures with various additives, as well as the regression equation obtained by calculations using the apparatus of mathematical analysis, which shows the significance of the parameters included in the process of compaction of the ICZB. These data are necessary for the correct design and selection of sealing mechanisms in order to obtain the design physical and mechanical properties of ICZB. In many regions of the world there is an acute shortage of high-quality raw materials for large aggregate in conventional concrete, which necessitates its transportation over distances from 400 to 1000 km. In this regard, the cost of one cubic meter of coarse aggregate in many regions is 2-3 or more times higher than the cost of sand, the deposits of which are more common. In addition, obtaining the desired fractions of quality aggregates requires artificial addition and fractionation of the resulting granules. The experience of using ICZB for the manufacture of parts and structures at the plants of ZHBK gave positive results, but in mass construction (hydraulic), he did not get spread due to insufficient study of physical and mechanical properties, weak efficiency of existing vibration equipment, insufficient development of new technological equipment for laying and sealing. In this regard, we believe that the research aimed at studying the physical and mechanical properties of ICZB and the further development of technological equipment, methods of laying and sealing for their widespread implementation, determine the relevance of this problem.
ISSN:1757-8981
1757-899X
DOI:10.1088/1757-899X/829/1/012018