Industrial flooring

Industrial flooring can be widely used in construction as flooring, for example, industrial flooring is suitable for any industrial unit, warehouses, retail stores, and even restaurants. Industrial flooring can be located almost everywhere in a building, including carport floors, exterior pavements and enclosures, and even architectural details like lobby and lounge and bedroom. Compared to tying systems, industrial floors usually have superior outcomes in terms of performance and durability in structures.

Industrial floors should have very high adhesion to the underlying floor. These floors should be completely flat and free of imperfections and unusual bumps due to the presence of cement plasters. Before applying flooring, it is necessary to apply the surface and leveling the surfaces with sub-steps. In order to provide acceptable adhesion, the underlying structures should also have high maintenance strength and tensile strength

Industrial floors are summarized in two industrial flooring systems based on cement and polymer base. The cement base system includes hard reinforced concrete, reinforced concrete (concrete butterfly trowel), mechanized concrete application, and polymer base system including epoxy flooring, flooring Polyurethane is a resin and protective coating.

Conventional and unprotected concrete flooring has some disadvantages, including:

A) high permeability that adsorbs surface water into concrete, resulting in concrete in the melting and freezing cycles and powdered. Powder coatings, in addition to lowering the strength of concrete and destroying the concrete surface with dust, will pollute the environment and endanger the health of employees and release of suspended matter in the space and the work environment.

(B) Low wear resistance, resulting in heavy traffic such as passing a forklift truck and causing powder coating of concrete.

(C) Low compressive and flexural strengths due to incorrect incorporation or inappropriate design causes cracks in the structure and ultimately leads to the destruction of concrete due to the passage of vehicles and bearings.

(D) Expansion joints (inelastic juveniles) in concrete floors are a place for the accumulation of various types of microbes and contaminations, which causes disruption of surface water discharges.

E) Low chemical resistance of concrete against acids, alkalis, solvents, petroleum products, etc.

The above disadvantages all cause problems and damage during the operation of concrete floors and reduce the useful life of concrete. The use of industrial floors eliminates the disadvantages mentioned above.