DOI: 10.5937/jaes12-6161
This is an open access article distributed under the CC BY-NC-ND 4.0 terms and conditions.
Volume 12 article 296 pages: 227 - 232
lt was experimentally founded, that
the size and the topology of the active additives particles in the composition
of the new kinds of high performance concretes is a very important parameter
(as its chemical activity), especially if the combination of these additives
enables realization of nonlinear phenomena. The sample which is combination of
highly dispersive silica fume and nanocarbon particles of the fulleroid type -
Astralenes®, was investigated. Also, the possibility to enlarge the lifetime of
the polymer components in composite concretes due to the presence of the
nanoparticles of fulleroid type was determined.
Ayano T., Kuramoto O.and Sakata K. (2000), Concrete with copper slag as fine aggregate, Journal of Society of Material Science Japan, Vol.49 (10), pp. 1097-1102
Bajenov U.M.,Lukutcova N.P., Karpikov E.G. (2003), Fine-aggregate concrete have modified by the complex microdisperse additive, Herald of Moscow State Building University, N°2, pp. 94-100
Batrakov V.G. (1998), Modified concretes, Moskva, Strojizdat Figovsky O., Beilin D., Ponomarev A. (2012), Successful implementation of nanotechnologies in building materials, Nanotechnologies in construction, No. 3 (19), pp. 6-21.
Grammond N.J. (1985), Thaumasite in Failed Cement Mortars and Renders from Exposed Brickwork, Cement and Concrete Research, Vol.15, pp. 1039.
Halushev A.K. (2012) Exploitation properties of the concretes based on the composite cements have Modified, Modern industrial and civil building construction, Vol.8, N3, pp.149 – 158
Kaprielov S., Sheinfeld A. (2000): Influence ofi Silica Fume-Fly Ash-Superplasticizer Combinations in Powder-Like Complex Modifier on Cement Paste Porosity and Concrete Properties, CANMET/ACI Int. Conf. on Su- perplasticizers and other Chem. Admixtures in Concrete, Rome, France, Proceedings, pp.383-400.
Krivtsov E.E., Nikulin N.M., Yasinskaya E.V. (2011): Research of the parameters of nanomodified dry Mix, Journal of Civil Engineering, N2 (20), pp. 29-32.
Kurdovski W. and Nocun-Wozelik (1983), The Tricalcium Silicane Hydration in the Presence of Active Silica, Cement and Concrete Research, Vol. 13, pp. 341-348.
Lazarevska, M., Milanovic, M., Knezevic, M., Cvetkovska, M., Trombeva-Gavriloska, A., Samardzioska, T. (2014): An artificial neural network prediction model for fire resistance of composite columns, Journal of Applied Engineering Science, Vol. 12, IN 1, pp 63-68
Lazarevska, M., Trombeva-Gavriloska, A., Knezevic, M., Samardzioska, T., Cvetkovska, M. (2012): Neural network prognostic model for RC beams strengthened with CFRP strips, Journal of Applied Engineering Science, N 1 (10), pp. 27-30
Matveeva E.G. (2011): Improving the efficient of the concrete by doping the nanodisperse silica fume, Ph.D. work, Belgorod.
Murgul, V. (2014): Features of energy efficient upgrade of historic buildings (illustrated with the example of Saint-Petersburg), Journal of Applied Engineering Science, Vol. 12 (1), pp 1-10
Nemova, D., Murgul, V., Golik, A., Chizhov, E., Pukhkal, V., Vatin N. (2014): Reconstruction of administrative buildings of the 70s: the possibility of energy modernization, Journal of Applied Engineering Science, Vol. 12 (1), pp 37-44
Ponomarev A.N., Nikitin V.A. (2003) Multylayered fulleroid-type polyhedral carbon nanostructures, RU Patent2196731
Ponomarev A.N., Yudovitch M.E. (2009) Torlike form multilayered fulleroid-type carbon nanoparticles, RU Patent 2397950.
Stevanovic, I., Stanojevic, D., Nedic, A. (2013): Setting the after sale
process and quality control at car dealerships to the purpose of increasing
clients satisfaction, Journal of Applied Engineering Science, 11 (2), pp. 81-88