AbstractAbout AuthorsReferences
It is established that the use of a complex additive consisting of a plasticizer and a fine mineral component (OMD) makes it possible to obtain high-strength self-compacting concrete. It is found that the partial substitution of micro-silica for the equivalent rate of a fine filler, zeolite in particular, reduces deformations of autogenous shrinkage without reducing the strength characteristics of concrete.
A.A. GUVALOV1, Doctor of Sciences (Engineering) (This email address is being protected from spambots. You need JavaScript enabled to view it.)
S.I. ABBASOVA1, Candidate of Sciences (Chemistry)
T.V. KUZNETSOVA2, Doctor of Sciences (Engineering)
S.I. ABBASOVA1, Candidate of Sciences (Chemistry)
T.V. KUZNETSOVA2, Doctor of Sciences (Engineering)
1 Azerbaijan University of Architecture and Construction (5, Sultanova Street, Baku, AZ-1073)
2 D. Mendeleyev University of Chemical Technology of Russia (7, Miusskaya Square, 125047, Moscow, Russian Federation)
1. Guvalov A.A. Influence the organomineralnykh of modifiers on concrete durability. The VI International conference “Durability and Destruction of Materials and Designs”. Orenburg, 2010, pp. 221–225. (In Russian).
2. Guvalov A.A., Kuznetsova T.V. Influence of the modifier on properties of cement suspensions. Stroitel’nye materialy [Construction materials]. 2013. No. 8, pp. 86–88. (In Russian).
3. Guvalov A.A. Impact of poliarilsulphonosulphonic Superplasticizer on hidration and hardening of cements SCIENCE WITHOUT BORDTERS. Transactions of the International Academy of Science H&E. Volume 3 2007\2008. Innsburk. 2009, pp. 605–610.
4. Guvalov A.A. The self-condensed high-strength concrete in technology of monolithic housing construction. Collection of scientific works of MGSU, on materials of the International scientific and technical conference “Industrial and Civil Engineering in Modern Conditions”. M.: MGSU, 2011, pp. 150–152. (In Russian).
5. Mounanga P., Bouasker M., Pertue A., Perronnet A., Khelidj A. Early-age autogenous and micro/macro investigations. Materials and Structures, 2011, v. 44, No. 4, pp. 749–772.
6. Nnadi F., Brave C. Environmentally friendly superabsorbent polymers for water conservation in agricultural lands. Journal of Soil Science and Environmental Management. 2011, No. 2, pp. 206–211.
2. Guvalov A.A., Kuznetsova T.V. Influence of the modifier on properties of cement suspensions. Stroitel’nye materialy [Construction materials]. 2013. No. 8, pp. 86–88. (In Russian).
3. Guvalov A.A. Impact of poliarilsulphonosulphonic Superplasticizer on hidration and hardening of cements SCIENCE WITHOUT BORDTERS. Transactions of the International Academy of Science H&E. Volume 3 2007\2008. Innsburk. 2009, pp. 605–610.
4. Guvalov A.A. The self-condensed high-strength concrete in technology of monolithic housing construction. Collection of scientific works of MGSU, on materials of the International scientific and technical conference “Industrial and Civil Engineering in Modern Conditions”. M.: MGSU, 2011, pp. 150–152. (In Russian).
5. Mounanga P., Bouasker M., Pertue A., Perronnet A., Khelidj A. Early-age autogenous and micro/macro investigations. Materials and Structures, 2011, v. 44, No. 4, pp. 749–772.
6. Nnadi F., Brave C. Environmentally friendly superabsorbent polymers for water conservation in agricultural lands. Journal of Soil Science and Environmental Management. 2011, No. 2, pp. 206–211.
For citation: Guvalov A.A., Abbasova S.I., Kuznetsova T.V. Improvement of High-Strength Concretes Structure Using Modifiers. Stroitel’nye Materialy [Construction Materials]. 2015. No. 12, pp. 78-80. (In Russian). DOI: https://doi.org/10.31659/0585-430X-2015-732-12-78-80