The use of composite binders and nanomodifiers for fiber-reinforced concrete

The article presents the results of studies on the production of fiber-reinforced concrete with mineral fibers produced in a plasma reactor, composite binders and nanomodifying additives. For dispersed reinforcement of concrete, basalt mineral fibers obtained by the electrothermal method in a plasma-arc reactor were used. To reduce the negative impact of Portland cement, composite binders based on Portland cement and fly ash were used. Fly ash meets the requirements of standards and is suitable for using it as a part of building materials. The nanosilica produced at an electron accelerator was used for comparison. The introduction of nanosilica improves the mechanical properties of cement by accelerating the hydration processes of Portland cement, improving the microstructure and changing the phase composition of the cement stone. The optimal content of fly ash in the composite binder, which allows obtaining high mechanical properties, has been determined. To reduce water content in the binder super plasticizer polycarboxylate type was used

Increased corrosion resistance of basalt reinforced cement compositions with nanosilica

Disperse fiber reinforcement is used to improve deformation and shrinkage characteristics, flexural strength of concrete. Basalt roving and thin staple fiber are often used as mineral fibers. The paper considers the problems of using thin basalt fiber produced by centrifugal-blow method. Evaluation of the corrosion resistance of basalt fiber as part of the cement matrix was performed. Nanodispersed silica produced by electron beam accelerator was used to increase corrosion resistance of basalt fiber