Research Journal of Applied Sciences

Year: 2014
Volume: 9
Issue: 12
Page No. 1153 - 1157

High-Strength Fiber-Reinforced Concrete Containing Technogenic Raw Materials and Composite Binders with Use of Nanodispersed Powder

Authors : Ruslan Valeryevich Lesovik, Sergey Vasilyevich Klyuyev, Aleksandr Vasilyevich Klyuyev, Aleksey Viktorovich Netrebenko and Andrey Viktorovich Durachenko

References

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Fernandes, G.R., 1976. La influenca de alqunas caractericticas de las aridas finos (arenas) en la propiedades des hormogon de cemento portland. Cemento e Hormigon, 47: 415-428.

Herr, O., 2001. Les materiaux autocompactants essorables de structure (MACES). Etude de faisabilite d'une nouvelle gamme de materiaux hydrauliques pour les assises de chaussees. Bulletin des Laboratoires des Ponts et Chaussees, No. 232, pp: 99-103.

Klyuyev, А.В., S.V. Klyuyev and R.V. Lesovik, 2011. Mixture for production fine-grained steel-fiber-reinforced concrete containing quartzitic sandstone fines. Patent No. 2467972, Russian Federation, IPC B 28C 5/40.

Klyuyev, A.V. and R.V. Lesovik, 2011. Technogenic sands as raw materials for production of fiber-reinforced concrete. Proceedings of the International Conference on Innovation Materials and Technologies, October 11-12, 2011, Belgorod, Russia, pp: 283-285.

Klyuyev, A.V. and R.V. Lesovik, 2012. Steel-fiber-reinforced concrete containing composite binders and technogenic sands of Kursk magnetic anomaly for flexural structures. Bulletin of Belgorod State Technological University Named after Shukhov V.G., pp: 14-16.

Klyuyev, A.V., 2011. Experimental investigation of steel-fiber-reinforced structured. Proceedings of the International Conference on Belgorod Region: Past, Present and Future, October 11-12, 2011, Belgorod, Russia, pp: 21-26.

Klyuyev, A.V., 2011. Steel fibers and their use for fiber reinforcement of fine-grained concretes. Proceedings of the International Conference on Innovation Materials and Technologies, October 11-12, 2011, Belgorod, Russia, pp: 229-232.

Klyuyev, A.V., 2011. Steel-fiber-reinforced concrete for cast-in-place and precast construction. Bulletin of Belgorod State Technological University Named after Shukhov V.G., pp: 60-63.

Klyuyev, A.V., S.V. Klyuyev, R.V. Lesovik and O.N. Mikhaylova, 2010. Mining industry by-products as raw materials for production of fine-grained concrete reinforced with fibers. Bulletin of Belgorod State Technological University Named after Shukhov V.G., pp: 81-84.

Klyuyev, S.V., A.V. Klyuyev, R.V. Lesovik and A.V. Netrebenko, 2013. High strength fiber concrete for industrial and civil engineering. World Applied Sci. J., 24: 1280-1285.
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Klyuyev, S.V., V.S. Lesovik, A.V. Klyuyev and D.О. Bondarenko, 2012. Revisiting use of several types of fibers for fiber-reinforced concretes. Bull. Belgorod State Technological University named after Shukhov V.G., pp: 81-83.

Lesovik, R.V. and A.V. Klyuyev, 2011. Calculation of high-density packing of grains of fine-grained concrete. Proceedings of the International Conference on Innovation Materials and Technologies, October 11-12, 2011, Belgorod, Russia, pp: 233-238.

Maidl, B., 1995. Steel Fibre Reinforced Concrete. Wiley, New Jersey, Pages: 292.

Piasta, J., W. Grochal and L. Rudzinski, 1985. Rheological properties of concretes with fine aggregate. Cement Conc. Res., 15: 253-260.
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