About Selection of Compositions of High-Quality Concretes with Organic-Mineral Modifiers

Number of journal: №12-2017

Каприелов С.С.
Шейнфельд А.В.
Кардумян Г.С.
Чилин И.А

DOI: https://doi.org/10.31659/0585-430X-2017-755-12-58-63


AbstractAbout the AuthorReferences
Features of the selection of compositions of high-quality concretes of B40–B100 classes on the basis of organic-mineral modifiers of MB type are considered. Rational fields of the use of modifiers of various grades for the provision of required characteristics of concrete mixes and concretes – fluidity, strength, and self-stressing – are shown. Dependences of the concrete strength on cement consumption, dozing of the modifier, and water-binder ratio are presented. Compositions of low-cement concretes with a low heat rise, high-strength and structural light concretes, self-compacting concretes, self-stressing concretes, concretes with low permeability and high frost resistance, which are used when constructing unique facilities of civil, industrial and transport construction, are also presented.
S.S. KAPRIELOV, Doctor of Sciences (Engineering) (This email address is being protected from spambots. You need JavaScript enabled to view it.),
A.V. SHEINFELD, Doctor of Sciences (Engineering),
G.S. KARDUMYAN, Candidate of Sciences(Engineering),
I.A.CHILIN, Engineer NIIZHB named after A.A. Gvozdev, JSC Research Center of Construction (6, 2nd Institutskaya Street, 109428, Moscow, Russian Federation)
1. Kaprielov S.S., Sheynfeld A.V., Kardumyan G.S. Novye modifitsirovannye betony [The new modified concrete]. Moscow: Tipografiya «Paradiz». 2010. 258 p. 
2. Kaprielov S.S., Sheynfeld A.V., Ferdzhulyan A.G., Pakhomov A.V., Livshin M.Ya. Experience of use of high-strength concrete. Montazh i spetsial’nye raboty v stroitel’stve. 2002. No. 8, pp. 33–37. (In Russian). 
3. Merkin V.E., Smolyansky V.M., Tsynkov V.M., Kaprielov S.S., Sheynfeld A.V., Pakhomov A.V. Optimization of compositions of concrete and technological parameters of production of blocks of an obdelka of the Lefortovo tunnel. Trudy TsNIIS. 2002. No. 209, pp. 24–44. (In Russian). 
4. Kaprielov S.S., Travush V.I., Sheynfeld A.V., Karpenko N.I., Kardumyan G.S., Kiselyova Yu.A., Prigozhenko O.V. The modified concrete of new generation in constructions of MMDTs “Moscow City”. Stroitel’nye Materialy [Construction Materials]. 2006. No. 10, pp. 8–12. (In Russian). 
5. Kapriyelov S.S., Sheynfeld A.V., Kardumyan G.S., Kiselyova Yu.A., Prigozhenko O.V. New concrete and technologies in structures of tall buildings. Vysotnye zdaniya. 2007. No. 5, pp. 94–101. (In Russian). 
6. Kaprielov S.S., Travush V.I., Karpenko N.I., Sheynfeld A.V., Kardumyan G.S., Kiselyova Yu.A., Prigozhenko O.V. The modified high-strength concrete of the classes B80 and B90 in monolithic designs.Stroitel’nye Materialy [Construction Materials]. 2008. No. 3, pp. 9–13. (In Russian). 
7. Kaprielov S.S., Sheynfeld A.V., Kardumyan G.S. Unique concrete and experience of their realization in modern construction. Promyshlennoe i grazhdanskoe stroitel’stvo. 2013. No. 1, pp. 42–44. (In Russian). 
8. Sheynfeld A.V. Organomineral modifiers as the factor increasing durability of reinforced concrete designs. Beton i zhelezobeton. 2014. No. 3, pp. 16–21. (In Russian). 
9. Kaprielov S.S., Sheynfeld A.V., Al-Omais D., Zaytsev A.S. High-strength concrete in a structure of the bases of the tall building OKO complex in MMDTs “Moscow City”. Promyshlennoe i grazhdanskoe stroitel’stvo. 2017. No. 3, pp. 53–57. (In Russian). 
10. Kaprielov S.S., Sheinfeld A.V., Dondukov V.G. Cements and additives for producing high-strength concretes. Stroitel’nye Materialy [Construction Materials]. 2017. No. 11, pp. 4–10. (In Russian). 
11. Collepardi M. The New Concrete. Italy. Grafiche Tintoretto. 2006. 421 p. 
12. Aitcin H.-C. High-Performance Concrete. London and New York: E & FN. 1998. 598 p.

For citation: Каприелов С.С., Шейнфельд А.В., Кардумян Г.С., Чилин И.А. About selection of compositions of high-quality concretes with organic-mineral modifiers. Stroitel’nye Materialy [Construction Materials]. 2017. No. 12, pp. 58–63. DOI: https://doi.org/10.31659/0585-430X-2017-755-12-58-63. (In Russian).

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