: 107-112
Lviv Polytechnic National University, Department of building production
Lviv Polytechnic National University, Department of building production
Lviv Polytechnic National University, Department of Building Production

In the article the features of reinforced concrete hardening at different temperature conditions and the current issues of preparation technology of Self-Сompacting Сoncretes (SCC) on the basis of superplasticized cementitious systems, combining knowledge of structure and modifying Portland cement compositions "Portland cement – active mineral additives – microfiller – superplasticizer – accelerator of hardening" to search for rational making provision of technical and building properties of concrete in the changing factors of its composition, technology and exploitation are shown. The physico-chemical peculіarities of hydration and hardening processes of superplasticized cementitious systems were established. The problem of obtaining Self-Compacting mixtures and Rapid-Hardening Concretes on their basis by the direct structure formation of cementitious matrix was solves. The optimization of Self-Compacting Concretes composition on the base of superplasticized cementitious systems with high early strength was carried out. The quality parameters of developed concretes were investigated and the effectiveness of their using in different temperature conditions was shown. The results of the studies found that the use of the superplasticized cementitious systems allows to influence on technological properties and kinetics of structure formation and create concrete structure with improved construction and technical properties at a different temperature conditions. Technological solutions designing of superplasticized cementitious systems that solves the problem of obtaining the Self-Сompacting Сoncretes (SCC) on their basis with using non-vibration technology are established. This creates an opportunity allows to solve the problem of obtaining for enabling early loading, reducing the production cycle, increasing turnover and formwork acceleration of monolithic
buildings and structures at different temperature conditions.

Urban, M. (2018). Low cement content SCC (Eco-SCC) - the alternative for ready-mix traditional concrete. 8th Scientific-Technical Conference on Material Problems in Civil Engineering, 163, 01004. Retrieved from

Rakesh, K. (2015). Self-Compacted Concrete Mix Design and its Comparison with Conventional Concrete (M-40). Journal of Civil & Environmental Engineering, 5:3.

Aggarwal, P., Siddique, R., Aggarwal, Y., & Gupta, S. (2008). Self-Compacting Concrete - Procedure for Mix Design. Leonardo Electronic Journal of Practices and Technologies, 15-24. Retrieved from:

Collepardi, M. (2010). Damage of concrete by sulphate attack and alkali-silica reaction. International Journal of Structural Engineering, 1(2).

Runova, R., Gots, V., Rudenko, I., Petropavlovskyi, O., Konstantynovskyi, O., & Lastivka, O. (2018). The efficiency of plastizing surfactats in alkali-activated cement mortars and concteres. Collection of scientific works of the Ukrainian State University of Railway Transport.

Vasim Nye. (2020). Self Compacting Concrete - Properties, Applications and Advantages. Retrieved from

Shi, C., Krivenko, P., & Roy, D. (2006). Alkali-Activated Cements and Concretes. New York, USA : Taylor & Francis Group. Retrieved from:

Stark, J., & Möser, B. (2002). Nano and microstructure of Portland cement paste. International workshop (pp.15-25). Essen, Germany.

Szwabowski, J., & Golaszewski, J. (2010). Technologia betonu samozageszczalnego. Krakov: Wydawnictwo Polski Cement SPC.

Sanytsky, М., Kropyvnytska, Т., Rusyn, B., & Geviuk, І. (2014). Multimodal composite Portland cements, modified with ultrafine mineral additives. Theory and Building Practice, 781, 158-161. Retrieved from:

Kurdowski, W. (2014). Cement and Concrete Chemistry. Springer Dordrecht, Netherlands.

Kirakevych, I., Sanytsky, M., & Chaykovska, R. (2015). Technology of Self-Сompacting Сoncretes, hardening at different temperature conditions. Theory and Building Practice, 823, 155-160. Retrieved from:

Kirakevych, І., Marushchak, U., Kirichenko, I., & Sanytsky M. (2011). Structure formation and properties of rapid-hardening Self-сompacting сoncrete. Budownictwo o zoptymalizovanym potenciale energetycznym. Praca zbiorova pod. red. T. Bobki, J. Rajczyka.Czestochowa. (pp. 80-85).