Self-compacting fine-grained concretes based on highly filled cement binders

Balykov Artemiy; Nizina Tatyana; Volodin Vladimir; Korovkin Dmitry

doi:doi:10.52957/27821919_2021_2_32

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SELF-COMPACTING FINE-GRAINED CONCRETES BASED ON HIGHLY FILLED CEMENT BINDERS

Journal: SMART COMPOSITE IN CONSTRUCTION Volume 2 № 2 , 2021

Rubrics: UNCATEGORIZED

UDK 691.327 Неармированный бетон UDK 691.214.8 Мрамор

Balykov Artemiy

Nizina Tatyana ²

Volodin Vladimir ³

Korovkin Dmitry ⁴

Author and publication information

Authors:

2. Ogarev Mordovia State University (I.o. direktora Instituta arhitektury i stroitel'stva)

Nacional'nyy issledovatel'skiy Mordovskiy gosudarstvennyy universitet im. N.P. Ogareva (Kafedra stroitel'nyh konstrukciy, Professor)

Saransk, Saransk, Russian Federation

3. Ogarev Mordovia State University

Saransk, Saransk, Russian Federation

4. Ogarev Mordovia State University (Department of Building Structures)

Saransk, Saransk, Russian Federation

Type:

Article

DOI:

https://doi.org/10.52957/27821919_2021_2_32

Pages:

from 32 to 37

Status:

Published

Received:

16.06.2021

Accepted:

21.06.2021

Published:

21.06.2021

Subject area:

UDK 691.327 Неармированный бетон
UDK 691.214.8 Мрамор

Language:

English

Keywords:

fine-grained concrete, highly filled self-compacting mixture, carbonate filler, active mineral additive, fine sand, physical and mechanical properties

Abstract and keywords

Abstract (English):
The paper discusses the development of modified fine -grained concretes of C20 to C90 compressive strength classes from self-compacting mixtures containing microcalcite, polycarboxylate superplasticizer, and fine quartz sand with a fineness modulus of 1.4, mineral additives of microsilica, metakaolin and Penetron Ad-mix (if necessary). The work provides the results of the study of physical and mechanical properties of the developed self-compacting fine-grained concretes.

Keywords:
fine-grained concrete, highly filled self-compacting mixture, carbonate filler, active mineral additive, fine sand, physical and mechanical properties

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References

1. Kalashnikov V.I. Calculation of compositions of highstrength self-compacting concrete. 2008. N. 10. P. 4-6 (in Russian).

2. Tarakanov O.V., Kalashnikov V.I. Prospects of application of complex additives in new generation concrete. Izvestiya KGASU. 2017. N 1(39). P. 223-229 (in Russian).

3. Usherov-Marshak A.V. Betony novogo genereniya – betony s dopadkami. Beton i zhelezobeton. Equipment. Materials. Technologies. 2011. N 1. P. 78-81 (in Russian).

4. Kaprielov S.S., Sheinfeld A.V., Dondukov V.G. Cements and additives for the production of high-strength concrete. Construction materials. 2017. N 11. P. 4-10 (in Russian).

5. Schutter G. De., Bartos P., Domone P., Gibbs J. Self-compacting concrete. New-York: Taylor & Francis Group. 2008. 296 p.

6. EFNARC. The European guidelines for self-compacting concrete. Specification, production and use. Farnham. UK. 2005. 68 p.

7. Okamura H., Ouchi M. Self-compacting concrete. Journal of Advanced Concrete Technology. 2003. V. 1. N. 1. P. 5-15.

8. Nizina T.A., Balykov A.S., Korovkin D.I., Volodin V.V. Modified fine-grained concretes based on highly filled selfcompacting mixtures. IOP Conference Series: Materials Science and Engineering. 2019. V. 481. URL: https://doi.org/10.1088/1757-899X/481/1/012048

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