Services

We strive to use the latest engineering technology to achieve the best quality at the best price for you.

Stages

01

An abrasive clearing of surfaces, according to the degree and roughness specified in each concrete project.

02

A layering of a corrosion resistant coat (painting and metallization) according to its set thickness and to the needs of the project.

03

We strive to use the latest engineering technology to achieve the best quality at the best price for you.

Services

Painting is one of the main activies of our company during the process of anti corrosive protection for steel constructions.
An accumulated production potential and a flexible form of work organisation allow us to carry out large volumes of quite complex works on various civil and industrial structures, with high quality and the long service life of a protective corrosion-resistant coating.

The following are the most common structures:

  • bridge superstructures;
  • steel constructions for industrial buildings and installations;
  • petrol/service stations;
  • bulk oil storage;
  • railway vehicles, marine and river crafts.

Currently, a change of emphasis has taken place in the industry of anti corrosive protection due to advanced developments and researches.

Two-component ethoxyline and polyurethane resin systems for anti corrosive protection guarantee reliable long-term protection for painted constructions and structures. These can provide successful and reliable anti corrosive protection for periods longer than 15 years. However, highly-skilled personnel and modern equipment are required for such systems from surface preparation to the degree of class Sa3.

We have all the necessary means for removing any old paint and varnish coverings as well as corrosion traces. Blast cleaning, with the application of abrasive materials such as metal fraction, cooper slag, corundum, garnet, quartz sand, glass fraction, aluminum shot, pit chips, steel sand, and artificial ice, allows for clearing any metallic industrial structures (copper, aluminum, zinced metal, etc.).

A high pressure (up to 1000 atm) hydrojet clearing is applied to works without spark formation, and special injection nozzles are also utilised, which are mounted in front of the sand-blasting nozzles and can remove 95% of dust and completely eliminate spark formation.

To remove an embedded corrosion and layers of old coverings, gas-dynamic blast abrasive devices are applied.
The class of the materials used for protective coatings is determined by the operating life and by a combination of corrosive factors, which influence the covering.

Metallization is the progressive technical process that provides long and reliable corrosion firmness for hardware of any dimensions in various service conditions with a 30-50 year guarantee period without service.

The essence of the process consists of the deposition of corrosion-resistant aluminium and zinc coverings through the use of small-sized torches (plasmatrons).

The purpose of the process is to protect the hardware against corrosion under various service conditions including air, industrial, and sea enviroment.

In comparison with analogues, the process of gas thermal spattering has the following advantages:

  • the longer service life of a protected product, often equal to the term of its operation;
  • the possibility of cover spattering on components of any dimensions and configuration;
  • the roughness of a spattering metal surface increases friction in bolted connections and thus reduces the probability of the formation of fretting corrosion;
  • the possibility of having coverings of a considerably greater thickness than melt dipping can provide;
  • the possibility of additional protection for welding zones;
  • the ecological cleanliness of the entire process due to the absence of waste.

Our company has all the necessary means and experience to perform efficient metallization works.

Foamed polyurethane is an excellent hydrofuge, heat and noise insulator, and is a material that has an exemplary thermal performance. It reducing thermal loss by 3-3.5 times in comparison with traditionally-used materials.

A generous application of foamed polyurethane with polyurea is the best variant for a soft roof at a competitive price. This technology has no analogues, and such a roof does not need any repair for a significant time afterwards. The term of operation is not less than 30 years and has been designed for use in buildings and construction.

Foamed polyurethane is a non-pollutant. The hygienic certificate permits for it to come into contact with foodstuffs. It is successfully used in medicine.

Foamed polyurethane can be promptly deposited (one team will cover an average of 500 sq. m. per day).

Foamed polyurethane does not require dismantle and recycling operations during the repair works, thus saving considerable cost and time.

Foamed polyurethane deposition:

  • the thermal protection and waterproofing of civil and industrial buildings and facilities (cellars, walls, ceilings, floors, seams), erection of brick, ferro concrete, concrete, and other building materials;
  • waterproofing and roof thermal protections, with the creation of a foamed polyurethane heatproof and waterproof carpet;
  • the repair of the damaged roofs of new and old buildings with weak thermal isolation. Roof repair through the use of foamed polyurethane evaporation can save up to 50% in costs, and 80% in time;
  • waterproofing and thermal protection of pipes and pipelines;
  • the polymeric thermal protection of freezing and isothermal vehicles;
  • the thermal protection of industrial refrigerating chambers that can essentially reduce electrical energy consumption;
  • the hermetic sealing of inter-panel joints in building structures, windows and door boxes;
  • the thermal protection and waterproofing of railway carriages, sea and river crafts, yachts, and ships;
  • heat retention in industrial, residential, warehouse buildings and constructions;
  • heat retention in industrial, residential, warehouse buildings and constructions;

Foamed polyurethane deposition:

  • the deposition of a protective layer on a roof including over a foamed polyurethane heat-insulated layer;
  • the protection of constructions against the influence of adverse weather conditions – bridges, hangars, etc.;
  • the facing of sediment bowls, concrete and brick capacities, dams, tanks, earthen sediment bowls, settling ponds, tunnels, ditches, embankments, etc.;
  • the covering of pipelines, silage holes, steel capacities and tanks (open-cut or inground)
  • the creation of capacities and tanks for storage of any chemical and toxic materials and liquids;
  • sheeting for any decorative designs, such as bowls, props, statues, falls, guide signs, pipes, monuments, elements of building facades, etc.;
  • the protection of walls and floors against corrosive liquids (anti corrosive processing);
  • the sheeting of ceilings and walls from the occurrence of fungi;
  • sheeting from the deterioration of crushers, mining equipment, the facing of lorry platforms and the bodies of dump trucks;
  • the protection (pouring) of storage and tanks on fishing trawlers from effects of saline liquid.