Industrial floors are exposed to very high loads and attrition during intensive use, which is why it is recommended to make surface hardening on their surface.
The dry mixture FORTEDUR 1025 consists of 27% sintered oxides, 27% metallic filler and cement and other chemical additives. Dry shake FORTEDUR 1025 dry shake is spread on the surface of fresh concrete, which can be accessed without collapsing. Surface is mechanically smoothed with the power trowels creating a thin, 2-3mm hard layer on its surface. Very high content of metallic filler and sintered oxides guarantees very good abrasion resistance and durability of the finished floor surface.
Sintered oxides are black aggregate, which is visible on the surface of the blurred concrete in the form of black dots, which gives the floor a unique look.
Surface hardening is most often used in production and warehouse halls, all types of wholesale, logistics centers or internal parking lots.
Fortedur 1025 dry shake from Fortemix company
Fortedur 1025 dry shake from Fortemix company
Fortedur 1025 is a unique mix of dry ingredients with sintered oxides and metallic aggregate, used for surface hardening of concrete on industrial concrete floors. Fortedur 1025 dr shake is a popular choice for facilities with increased abrasion requirements. It is characterized by very good abrasion resistance, which it owes to two types of fillers: sintered oxides and metallic filler. The surface hardened floor is smooth with non-slip properties, more resistant to wear and impact, easy to clean and practically non-dusty compared to ordinary concrete. Its soaking resistance is also increased (oils, solvents and others).
PACKING:
Dry shake FORTEDUR 1025 is packed in 25 kg bags. The bags are stacked on pallets of 42 pieces . The entire pallet weighs 1050kg net / 1075kg gross.
COLORS:
loors with dry mixes are primarily done in a natural gray color (the color of concrete). The mixed layer can be dyed to a selected color shade based on the requirements of the customer. The final color of the floor is always a combination of the color of the dry mix with shades of gray. Close-up on the surface you will see black spots coming from curing aggregate, i.e. sintered oxides.
APLICATION
The concrete must be ready to receive the dry mix. Before applying the first layer, excess water is removed from the concrete surface, the surface is leveled and ready to walk on (pressed by hand to a depth of 3-5 mm). The concrete surface is smoothed using a rotary disc buffer, then Fortedur dry mix is evenly spread on the surface of the concrete slab in one or two steps in a total amount of 3-6 kg/m2 (i.e. a 25 kg bag of the product can produce a 4-8 m2 wear layer). After each application of the material, the surface is mechanically smoothed with the rotary machine using combination and final trowels, which ensures a high degree of the final physical modification. The process of smoothing with an increasing tilt of the trowel is repeated many times depending on the course of the solidification of the concrete mixture and dry mix. Prior to applying Fortedur dry mix, there can be no depressions or puddles on the concrete surface, nor can the surface be soaked.
Immediately after machine smoothingon the hardened surface need to be spray with care product intended for this purpose. Suitable impregnants for example. Fortecoat 1425 solvent based or Fortecoat 1426 water based - prevent premature drying of the surface layer of the plate with hardening. The maturing process then takes place equally over the entire thickness of the concrete slab. The preparations close the pores in the floor, sealing it and reducing the effect dusting, reduce its absorbency, increase mechanical and chemical resistance and facilitate cleaning the substrate.
Comparison with other products from this manufacturer:
Fortedur 1010 | Fortedur 1015 | Fortedur 1020 | Fortedur 1025 | Fortedur 1030 | Fortedur 1040 | |
aggregate | quartz aggregates 66,4% | sintered oxides 16,2% + quartz aggregates 40,22% | sintered oxides 44,4% | sintered oxides 27,7% + metallic fillers 27,7% | metallic fillers 56,5% | Silicon carbide 30% |
compressive strength after 28 days | min. 65 MPa | min. 65 MPa | min. 80 MPa | min. 80 MPa | min. 80 MPa | min. 80 MPa |
abrasion resistance according Bohmego | 5 cm3/50cm2 | 4 cm3/50cm2 | 2 cm3/50cm2 | 1,5 cm3/50cm2 | 1 cm3/50cm2 | 1 cm3/50cm2 |
abrasion resistance according BCA | 0,05 mm | 0,04 mm | 0,035 mm | 0,025mm | 0,02 mm | 0,02 mm |
material consumption | 3 - 6 kg/m3 | 3 - 6 kg/m3 | 3 - 6 kg/m3 | 3 - 6 kg/m3 | 3 - 6 kg/m3 | 3 - 6 kg/m3 |