Investigation of the effect of carbon mineral composites additives on the properties of concrete products

Authors

  • S.K. Tanirbergenova Institute of Combustion Problems, 172, Bogenbay Batyr str., Almaty, Kazakhstan; «In-Prometheus», 20, Toretai str., Almaty, Kazakhstan
  • B.K. Dinistanova Al-Farabi Kazakh National University, 71 Al-Farabi ave., Almaty, Kazakhstan
  • D.A. Tugelbayeva Institute of combustion problems, Bogenbay Batyr Str., 172, Almaty, Kazakhstan
  • N.K. Zhylybayeva Institute of combustion problems, Bogenbai Batyr Str., 172, Almaty, Kazakhstan

DOI:

https://doi.org/10.18321/cpc550

Keywords:

concrete products, carbon mineral composites, ash waste, lightweight concrete, gas plasma plant

Abstract

This article presents the results of a study of the physico-chemical characteristics of ash waste from the Almaty and Kentau thermal power plants. The possibility of obtaining carbonmineral composites (UMC) from ash waste in a gas-plasma installation has been established, optimal modes of synthesis of carbonmineral composites have been determined. The physicochemical properties of the obtained carbon mineral composites have been studied. The influence of UMC on the strength of concrete has been studied. It has
been established that the compressive strength of concrete products with the addition of carbon mineral composites made from ash wastes of Almaty CHP-2 increases to 160 kN. 

References

(1). Samorokov VE, Zelinskaya EV (2012) Bulletin of IrSTU [Vestnik IrGTU] 9:201-205 (in Russian).

(2). Inozemtsev AS (2015) Young Scientist [Molodoi uchenyi] 17:133-137 (in Russian).

(3). Drozhzhin VS, Shpirt MYa, Danilin LD, Kuvaev MD, Pikulin IV, Potemkin GA, Redyushev SA (2008) Solid Fuel Chemistry 2:107-119.

(4). Shekhovtsov VV, Volokitin OG, Volokitin GG, Skripnikova NK, Anshakov AS, Kuzmin VI (2017) Bulletin of Tomsk State University of Architecture and Civil Engineering [Vestnik Tomskogo gosudarstvennogo arhitekturnostroitelnogo universiteta]. 19:143-150 (in Russian).

(5). Solonenko OP (2014) Thermophysics and Aeromechanics 21:735-746.

(6). Kizilstein L (2008) Science and Life [Nauka i jizn] 5:42-45 (in Russian).

(7) Shekhovtsov VV, Volokitin OG, Gafarov RE, Semenov MA (2019) Bulletin of the Tomsk State University of Architecture and Civil Engineering [Vestnik Tomskogo gosudarstvennogo arhitekturno-stroitelnogo universiteta]. 21:134-139 (in Russian).

(8). Bondarenko DO, Strokova VV, Timoshenko TI, Rozdol’skaya IV (2019) Inorganic Materials 10:445-450. https://doi.org/10.1134/S2075113319020072

(9). Samorokov VE, Zelinskaya EV (2013) Composite materials based on aluminosilicate microspheres in mechanical engineering [Kompozitsionnye materialy na osnove aliymosilikatnyh mikrosfer v maşinostroenii]. Materials of the 7th International Scientific and Technical Conference «Modern problems of mechanical engineering», Tomsk, Russia. P.128-131 (in Russian).

(10). Shekhovtsov VV, Volokitin GG, Skripnikova NK, Volokitin OG (2017) Plasma spheroidization of aluminosilicate particles [Kompozitsionnye materialy na osnove aliymosilikatnyh mikrosfer v maşinostroenii]. Materials of the 12th International Conference «Processes of interaction of radiation and plasma with a solid», Minsk, Belarus. P.487-488 (in Russian).

(11). Shekhovtsov VV, Volokitin OG, Kondratyuk AA, Vitske RE (2016) Fly ash particles spheroidization using low temperature plasma energy. IOP Conf. Series Materials Science and Engineering. 156(1):012043.

(12). Shahidan Shahiron, Aminuddin Eeydzah, Mohd Noor Khairiyah, Ramzi hannan Nurul Izzati Raihan, Saiful Bahari, Nur Amira (2017) Potential of Hollow Glass Microsphere as Cement Replacement for Lightweight Foam Concrete on Thermal Insulation Performance. MATEC Web of Conferences. 103(5):01014

(13). Vereshchagina TA, Anshits NN, Zykova ID (2001) Chemistry in the interests of sustainable development [Himiıa v interesah ustoichivogo razvitiıa] 9:379-391 (in Russian).

(14). Masanin OO, Nelyubova VV (2018) Investigation of the influence of glass cenospheres on the properties of white cement. Materials of the International scientific and practical conference «Innovation and Construction - 2018», Bryansk, Russia. P.291-295 (in Russian).

(15). Kalashnikov VI (2007) Technologies of concrete [Tehnologii betonov] 5:8-10 (in Russian).

Published

2022-09-12

How to Cite

Tanirbergenova, S., Dinistanova, B., Tugelbayeva, D., & Zhylybayeva, N. (2022). Investigation of the effect of carbon mineral composites additives on the properties of concrete products. Combustion and Plasma Chemistry, 20(3), 229–238. https://doi.org/10.18321/cpc550