Concretes with nanoadditive of fired recycled concrete
Автор: Gusev B.V., Kudryavtseva V.D., Potapova V.A.
Журнал: Nanotechnologies in Construction: A Scientific Internet-Journal @nanobuild-en
Рубрика: Technologies for production of construction materials and products
Статья в выпуске: 5 Vol.12, 2020 года.
Бесплатный доступ
The practice of using recycled concrete from the broken concrete of substandard reinforced concrete products can become widespread in practice. The undoubted relevance of this topic is explained by the program for the renovation of the housing stock in the city of Moscow, which provides for the demolition of 5-storey residential buildings until 2032. The problem of recycling and reuse of construction waste becomes obvious to improve the environmental situation, as well as to reduce the cost of materials in construction and preserve natural resources. The article deals with the nanostructuring of cement systems by means of introduction of ultra- and nanodispersed mineral additives. In this case, additional grinding of mineral additives is carried out in cavitation units. Nanostructuring provides the compaction of concrete structures and an increase in the strength properties of concrete.
Recycled concrete, broken concrete, X-ray phase analysis, physical and chemical analysis, mineral fillers, cavitation grinding, structure, nanostructuring, strength
Короткий адрес: https://sciup.org/142226955
IDR: 142226955 | DOI: 10.15828/2075-8545-2020-12-5-245-249
Список литературы Concretes with nanoadditive of fired recycled concrete
- Golovin N. G., Alimov L. N., Voronin V. V., Pulyaev S. M. Reuse – one of the directions of solving the ecological problem in the production of products and structures from concrete. Concrete and reinforced concrete – development paths. Vol. 5, p. Moscow: 2005. p. 194–203.
- Gusev B.V., Kudryavtseva V.D. Crushing of reinforced concrete products and secondary use of concrete. Technics and technology of silicates. 2013;20(2): 25-28.
- Gusev B.V., Kudryavtseva V.D. Crushing methods for reinforced concrete products and concrete recycling. In: Concrete and reinforced concrete – a look into the future scientific papers of the III All-Russian (II International) conference on concrete and reinforced concrete: in 7 volumes. 2014. p. 274–279.
- Proceedings of the Durability and Sustainability of Concrete Structures Symposium (DSCS-2018).
- Tyrtygin V.N., Skripnik V.P., Sobgaida N.A., Shaikhiev I.G., Getting binders and raw materials from concrete scrap. Bulletin of the Technological University. 2015;18(7): 203-208.
- Saidumov M.S. Screenings of crushing of concrete scrap and rocks to obtain concrete composites [dissertation]. Grozny: 2012.
- Gusev B.V., Krivoborodov Yu.R., Potapova V.A. Possibility of secondary use of concrete breaker. Technique and technology of silicates. 2020;27(1): 28-31.
- Generalov M.B. Cryochemical nanotechnology. Moscow: Akademkniga; 2006.
- Li G.Y., Wang P.M., Zhao X. Mechanical behavior and microstructure of cement composites incorporating surface-treated multi-walled carbon nanotubes. Carbon. 2005; 43: 1239-1245.
- Gusev B.V. Development of nanoscience and nanotechnology. International Scientific and Technical Conference “Composite Building Materials. Theory and practice”. Penza: Volga House of Knowledge; 2007; 70-73.
- Gusev B.V. Advanced technologies in the production of precast concrete. Izhevsk; 2015.
- Giller Ya.L. Interplanar spacing tables. Moscow: Nedra; 1966.