In their pure form, concrete floors are of limited use, because of the low resistivity of their surface to abrasion, attrition and dust.
Concrete floors with reinforced top layer
It is the most appropriate solution for the floors with operating pressures of different intensity. Hardening is performed by the inclusion of dry hardening mixtures based on a high-quality cement with fillers (silica, corundum, metal alloys) on the surface of fresh concrete and subsequent mechanical processing done by concrete-finishing machines (smoothing and trowelling). As a result of hardening of the surface there forms a layer which is monolithic with the concrete, with a thickness of 2-
There is a possibility of creating a multi-colored floor by using colored hardeners. Another advantage of this technology is a relatively low cost and fast commissioning of the floor.
Concrete floors with a chemical hardening
Chemical hardening of a concrete floor can be implemented both on concrete floors and on the floors with a hardening done by dry-shake hardeners. The mechanism of the action of a chemical hardener is a chemical reaction of a hardener with "free lime" (calcium hydroxide) on the surface layer of a concrete and the subsequent formation of cementitious gel. The final result of these reactions is the formation of a dense, insoluble, chemically resistant surface of the concrete. This processing of the concrete floor is made 7 days after the concrete floor placement. It increases wear resistance properties of the surface by 50-80%, as well as the resistance to spillage of oils, gasoline, slightly aggressive fluids. It also simplifies cleaning, and the surface gets dull luster over time.
Floor is the most loaded structural element of the building, it is also the core of the entire production cycle. Long-term and maintenance free operation of the floor is the basic requirement of Customers. The other important criterion is the quality-price ratio.
Colon, Hyphen & Right Bracket —