Keramoizol consumption per sq. m. LLC 'Alliance-New Technologies'
The high cost of energy resources increases the relevance of using materials for heat conservation and conservation. One of the most effective developments in the field of repair building materials is a polymineral high-tech paint “Keramoizol”, created on the basis of nanotechnology.
Reducing the amount of heat loss through the use of liquid insulating paint compositions is now carried out according to new principles.
The improved Keramoizol insulation has the highest energy-saving properties, because it works on the principle of an optical system. The paint effectively reflects heat due to the fact that it contains hollow spherical bodies.
Place of production and principle of operation of the material
Energy-saving paint was created in Ukraine. The use of such material reduces the complexity of insulation work. The product can be used in any facility: from residential to industrial. It provides the following properties:
- Prevents the destruction of the building from condensation.
- Protects the structure from temperature fluctuations.
- It is an excellent sealant for wooden structures.
The operating principle of Keramoizol was integrated for use in the US space industry. For these purposes, a material that has a small layer thickness, creates a reliable barrier that blocks thermal and radiation waves, is ideal.
Positive properties of the product
The main advantage of Keramoizol paint is its environmental friendliness; it has successfully passed all environmental safety tests. In addition, it has the following advantages:
- Optimal cost.
- Guaranteed efficiency when used in aggressive conditions.
- Ease of use.
- Fire safety and waterproofing.
- High adhesion to treated surfaces.
The material is intended to create thermal, hydro- and noise insulation, and prevent corrosion. With its help, you can create a durable shield that protects equipment, industrial, public and domestic buildings, pipelines, tanks, liquid storage containers (or food products), vehicles. 
The unique composition of “Keramoizol” is associated with the presence of microscopic hollow balls, inside of which there is air. They are in a suspended state. The paint also contains synthetic rubber, acrylic polymers and inorganic pigments.
Application area
To get 100% protection, you need to apply Keramoizol in a thin layer of 1-2 mm. The presence of hollow ceramic microspheres and special fillers makes the application process simple and easy. The composition is evenly distributed over the working surface.
Thermal insulation operates using the two-way mirror method - the composition has reflective abilities. Before application, the paint is diluted with water.
This can be done in a room not equipped with additional ventilation, since the composition does not contain toxic substances. In winter, it is rational to use Keramoizol on a varnish base.
They are used in the same way as similar traditional formulations. Apply it with a roller or brush. Can be used mechanized methods: spray gun, sprayer.
The minimum thickness of the applied layer is 0.5 mm. The product consumption for processing declared by the manufacturer is 2 sq. m is 1l.
The drying and polymerization process occurs throughout the day. Then you can start the next one decorative finishing– puttying, painting, etc.
When the thermal protection is completely dry, the paint operates effectively in a wide temperature range (from -50 to +220 0 C). The material is sold in a ready-to-use consistency.
“Keramoizol” is a productive and affordable new product for high-quality and durable protection against noise, corrosion and adverse external factors.
1. Rules of application and operation.
1.1. The composition is used according to the instructions from the application, for internal and external work.
1.2. Composition - this is a liquid, paste-like mass of gray color (the color can change at the request of the buyer).
1.3. Keramoizol has sufficient adhesion (the ability to stick to the surface) on the following types surfaces:
Concrete, ceramics and brick,
Styrofoam;
Metal;
Tree;
Painted surface.
in areas that are susceptible to thermal expansion and contraction without causing damage to the coating.
1.5. To ensure thermal insulation application of the composition applied to the external surface of pipelines and equipment, external and internal surfaces of housing and industrial premises made of concrete, brick, plastered surfaces, foundation surfaces and others in accordance with DSTU V.2.6-14.
1.6.
The composition is applied to a grease-free, dry surface, cleaned of dust, rust, scale, grease and other contaminants at a temperature environment from +5°c to +50°c and relative air humidity not higher than 75%, subject to compliance with GOST 12.3.035 using means personal protection. Before applying the coating, the metal surface must be degreased and free from greasy stains and divorces. Complete removal rust from the surface is not necessary; the coating contains metal corrosion inhibitors.
It is enough that the metal surface does not have rust layers. Maximum temperature the surface on which the composition is applied is not higher than +90°C. When working in damp rooms, for normal polymerization of the coating, it is necessary to ensure intensive ventilation of the premises; if necessary, use heat guns or fans. Before use, and it is necessary to mix until the entire mass reaches a homogeneous consistency (the composition is extremely hygroscopic; water can be added no more than 5% of the total volume) and mix thoroughly.
1.7. Single layer coating thickness, applied to metal bases pipelines and equipment should not exceed 0.5 mm The thickness of the layer applied to concrete or brick bases is no more than 1 mm to avoid drips and slipping.
1.8. Composition reapply no earlier than after 24 hours, only after the previous layer of coating has completely dried. Cost rate and for concrete and brick bases, taking into account the absorbing properties of the base, it depends on the quality of the base - from 1 to 1.3 l/m² of surface when covering with a layer of 1.3 mm Cost of the composition when applied to metal surfaces with a coating thickness of 1mm 1l/m².
1.9. The manufacturer guarantees that the composition meets the requirements technical specifications subject to proper fulfillment of the conditions of transportation, storage and use.
1.10. Warranty period – at least 7 years from the date of application.
1.11. Practical advice from the use of a composition on a water-soluble basis:
1.11.1 Spray guns are the best for industrial coating applications. high pressure manufactured by Wagner (Germany) - the Finish type, and the length of the high-pressure hose should not be more than 10-15 meters. Experience with the use of the 7000 atomizer shows the insufficient reliability of the membrane of this device. To apply the coating, it is possible to use conventional pneumatic spray guns, but in this case its original hole must be increased to 1.4-2 mm. A smaller hole in the initial nozzle of the spray gun, due to the high viscosity of the coating, significantly reduces productivity and allows the air flow to knock the coating off the surface, and also requires stronger dilution with water, which in turn leads to rapid stratification of the product. Too much large diameter leads to uneven application and large drips. When using any of listed types equipment, the quality of the coating will depend on the experience of the operator who works on this equipment . The thickness of the first coating layer should be approximately 0.3 mm and is a primer. The next layer can be applied only after complete polymerization (complete drying) of the previous layer, which takes place at +20°C for approximately 6-12 hours. Possible application on hot surfaces (+90°C), and the polymerization time of the applied layer is significantly reduced. The coating is not paint, but primarily a heat-insulating coating, so there is no need to be afraid of the unevenness of the first applied layers.
1.11.2 Before starting work, it is necessary to mix thoroughly. This is best done with an electric drill with an attachment at medium speed. At high speeds, possible destruction of microspheres, which are the basis of thermal insulation. If a crust has formed on the surface during storage, it is necessary to break it with translational movements up and down, including a drill, until the surface is covered with the liquid that was below.
The surface to be insulated must be degreased. To do this, you can use gasoline, solvents, and kerosene. Before use, you must wait until they are completely dry. Metal surfaces that are insulated must be cleaned of dust, dirt, exfoliated old paint etc. It is allowed to use the coating on metal surfaces that have a small (up to 50 microns) layer of rust. Visible rust cakes should be removed. The thickness of the layer that is applied at a time should not exceed 0.5-1.0 mm, in order to avoid drips, swelling, and peeling. The first layer that is applied is a primer. Drying time for one layer of coating is at least 12 hours at a temperature of 20°C. As the temperature increases, the drying time decreases; with a decrease, the drying time increases. Upon completion of work using water-based paint, equipment must be rinsed with water.
2.Transportation and storage.
2.1. When transporting, loading, and unloading the composition, measures must be taken to ensure the integrity of the packaging.
2.2. Water-based composition in winter period must be stored in a packaged state in a closed, specially designated room at a distance of at least 1 m from heating devices at temperatures from +5°C to +40°C.
When frozen, the material completely loses its thermal insulation properties, therefore transportation is possible only at positive temperatures. (+3°C and above)
2.3. Guaranteed shelf life is 12 months from the date of manufacture.
3. Security requirements.
3.1. Coating " " is a fire and explosion safe product. According to GOST 12.1.044 it belongs to the group of highly combustible materials. When extinguishing fires, foam, sand, water, and powder are used.
3.2. During use, workers must be provided with special clothing in accordance with GOST 27574, GOST 27575, rubber gloves in accordance with GOST 20010, anti-aerosol masks of the FA type and personal respiratory protection equipment ShB-1 "Lepestok" in accordance with GOST 12.4.028, safety glasses in accordance with GOST 12.4.013, shoes in accordance with GOST 12.4.162. When working in enclosed spaces, ventilation must be provided.
3.3. If it gets on the skin, wash it off with soap and water; if it gets into your eyes, rinse immediately with plenty of water. Does not release into the environment during storage harmful substances in quantities that exceed the maximum permissible concentrations. The material does not form toxic compounds in air and water in the presence of other substances.
Must be stored in specially designated areas in compliance with the “Rules” fire safety at the Fire Safety Rules in Ukraine”, which are provided regulatory documents for thermal insulation materials.
Instructions
applying the heat-insulating coating "Keramoizol" on the surface
Surface preparation:
Carry out mechanical or manual cleaning of old paint, oily inclusions, etc., grinding the surface.
Dust the surface, saturate the wood with antiseptic compounds water based, or acrylic primer for wood.
Preparation of material:
If the composition thickens, it can be diluted with water to the required consistency (no more than 5% by volume of the entire mass) and mixed thoroughly. The resulting composition must be stirred periodically.
Application of material
For interior spaces: apply latex-based leveling putty over the material (the use of lime putty is not allowed), stick wallpaper, ceramic tiles or paint with acrylic paint (excluding oil, pentaphthalic paint and enamels).
Surface preparation:
To obtain a smooth surface, the brick surface must be treated with cement-plaster compounds and wait until it dries completely. Immediately before applying the material, remove loose areas, oily inclusions, remove efflorescence, dirt, and remove dust.
To save relief surface– the brick surface should be cleaned of loose areas, oily inclusions, efflorescence, dirt, and dust free.
Preparation of material:
Before starting work, thoroughly mix Keramoizol until a homogeneous mass is obtained. Mixing should be carried out manually or using a mixing attachment on electric drill. The rotation speed should not exceed 150-200 rpm. If a crust has formed on the surface of “Keramoizol”, destroy it with a nozzle using upward and downward movements, without turning on the drill, until the surface is covered with the liquid that was below.
If the composition thickens, it can be diluted with water to the required consistency (no more than 5% by volume of the entire mass) and mixed thoroughly.
Application of material
1. Primer layer. Apply the first primer layer of Keramoizol to the prepared surface (clean, dry, dust-free). To prepare the primer layer, add to the material pure water as a diluent in the proportion of 300 ml of water per 1 liter of Keramoizol. Allow to dry for at least 6 hours at a temperature of +20°C. If the temperature is below +15°C, increase the drying time to 24 hours. The resulting composition must be stirred periodically.
2. Base layers. Apply the main layers of the material, observing the technology of interlayer drying: at a temperature of +20°C and above and a relative humidity of no more than 75%, the drying time of one applied layer 0.5 mm thick is 24 hours, in case of a decrease in temperature or an increase in relative humidity, the interlayer time drying time must be increased 2-3 times. The Keramoizol material must be stirred periodically during operation.
3. The thickness of the applied layer should not exceed 0.5 mm to avoid swelling, drips, and peeling. The final thickness of the Keramoizol thermal insulation coating is determined by the method of thermal engineering calculation.
4. Apply using circular, vertical and horizontal movements, carefully painting the entire surface.
Preparing the surface for subsequent work
For interior spaces: apply latex-based leveling putty over the material (the use of lime putty is not allowed), stick wallpaper, ceramic tiles or paint (except oil paint).
For facade walls: apply a high-quality water-dispersion solution to the surface of the Keramoizol material acrylic paint, or leveling putty for subsequent gluing with tiles or other facade materials.
Surface preparation:
Remove rust and scale using mechanized or manual metal brushes.
Dust the surface and, if necessary (if there are untreated grease stains), degrease it with solvent 646, 647.
If necessary (in case of severe corrosion), treat the surface with a rust converter based on phosphoric acid (15% solution of water and phosphoric acid). If a phosphate “whitish” film forms on a metal surface, wash off the remaining acid with water, which will form protective layer surfaces are “whitish” in color.
Primer. Apply GF-19 or GF-21 primer to the surface (1-2 layers).
Preparation of material:
Before starting work, thoroughly mix Keramoizol until a homogeneous mass is obtained. Mixing should be done manually or using a mixing attachment on an electric drill. The rotation speed should not exceed 150-200 rpm. If a crust has formed on the surface of “Keramoizol”, destroy it with a nozzle using upward and downward movements, without turning on the drill, until the surface is covered with the liquid that was below.
If the composition thickens, it can be diluted with water to the required consistency (no more than 5% by volume of the entire mass) and mixed thoroughly. The resulting composition must be stirred periodically.
Application of material
It is recommended to apply Keramoizol to “cold” metal surfaces at an ambient temperature of +15°C and a humidity of no more than 75%.
The lower the relative humidity, the faster the material dries. And accordingly, the higher the humidity, the longer the drying time.
On clean, polished metal surfaces, steam condenses into moisture at humidity levels greater than 90%. On rough or uncleaned surfaces, condensation occurs already at a humidity of 65-75%. In addition, condensation can settle on the surface even at low humidity if the metal temperature is lower than the air temperature. Therefore, before applying the heat-insulating material “Keramoizol”, the surface must be dried naturally or forcibly.
If the air temperature is below +10°C, the metal surface should be heated to a temperature of at least +15°C, but if this is not possible, then work on applying the Keramoizol material cannot be carried out. It should be remembered that when the temperature drops below +20°C and the humidity rises to 85%, the drying time increases. Therefore, it is necessary in any case to increase the time between application of layers by at least 2-3 times. For example, dried at low temperatures polymer material“Keramoizol” seems to be polymerized after the film has formed, although the film will become completely strong only after the polymerization of the material is complete.
High ambient temperatures significantly accelerate water evaporation and curing. In this case, it can only dry upper layer and “slam” water vapor inside, which in turn increases the actual time for complete and uniform polymerization of the applied layer. At the same high temperature surrounding air and surface this usually does not occur, so in summer period It is recommended to carry out work only in the morning in order to avoid a significant difference in the temperatures of the metal and air. Drying the applied layer with a directed jet of heated air is unacceptable.
1. Primer layer. When applied to ferrous metal, it is necessary to apply the polymer-mineral composition “Keramoizol” only to a prepared, pre-primed metal surface. We recommend primer GF-19, GF-21 produced in Belarus or the Russian Federation. In case of application to non-ferrous metal, apply the first primer layer of Keramoizol to the prepared surface (clean, dry, dust-free). Allow to dry for at least 24 hours at +20°C.
2. Base layers. The application of layers of material must be carried out, observing the technology of interlayer drying: at a temperature of +20°C and above and a relative humidity of no more than 75%, the drying time of one applied layer 0.5 mm thick is 24 hours, in case of a decrease in temperature or an increase in relative humidity, time interlayer drying must be increased 2-3 times. The Keramoizol material must be stirred periodically during operation.
3. The thickness of the applied layer should not exceed 0.5 mm to avoid swelling, drips, and peeling. The final thickness of the Keramoizol thermal insulation coating is determined by the method of thermal engineering calculation.
4. Apply using circular, vertical and horizontal movements, carefully painting the entire surface.
Preparing the surface for subsequent work
The top of “Keramoizol” can be coated with acrylic paint to protect the “Keramoizol” material from constant contact with aggressive environments.
Surface preparation:
Remove loose areas, open cracks, remove oily inclusions, clean concrete from cement laitance, efflorescence, dirt, bitumen stains, if necessary, repair the surface with cement-plaster compounds, remove dust.
Preparation of material:
Before starting work, thoroughly mix Keramoizol until a homogeneous mass is obtained. Mixing should be done manually or using a mixing attachment on an electric drill. The rotation speed should not exceed 150-200 rpm. If a crust has formed on the surface of “Keramoizol”, destroy it with a nozzle using upward and downward movements, without turning on the drill, until the surface is covered with the liquid that was below.
If the composition thickens, it can be diluted with water to the required consistency (no more than 5% by volume of the entire mass) and mixed thoroughly. Stir the resulting mass periodically.
Application of material
1. Primer layer. Apply the first primer layer of Keramoizol to the prepared surface (clean, dry, dust-free). To prepare the primer layer, pure water is added to the material as a diluent in the proportion of 300 ml of water per 1 liter of Keramoizol. Allow to dry for at least 6 hours at a temperature of +20°C. If the temperature is below +15°C, increase the drying time to 24 hours. The resulting composition must be stirred periodically.
2. Base layers. Apply the main layers of the material, observing the technology of interlayer drying: at a temperature of +20°C and above and a relative humidity of no more than 75%, the drying time of one applied layer 0.5 mm thick is 24 hours, in case of a decrease in temperature or an increase in relative humidity, the interlayer time drying time must be increased 2-3 times. The Keramoizol material must be stirred periodically during operation.
3. The thickness of the applied layer should not exceed 0.5 mm to avoid swelling, drips, and peeling. The final thickness of the Keramoizol thermal insulation coating is determined by the method of thermal engineering calculation.
Preparing the surface for subsequent work
For interior spaces: apply a latex-based leveling putty over the material (the use of lime putties is not allowed), stick wallpaper, ceramic tiles or paint (excluding oil, pentaphthalic paint and enamels).
For facade walls: apply high-quality water-dispersion acrylic paint or leveling putty to the surface of the Keramoizol material for subsequent gluing with tiles or other facade materials.
The production of building materials does not stand still. More and more often, numerous technological innovations are entering the market, designed to facilitate the process of efficient construction of houses, repair of various structures and other areas of the construction industry.
The production of thermal insulation materials takes pride of place in construction today. The spectrum of this construction industry is quite wide and diverse, so the ordinary consumer often faces the question the right choice high-quality thermal insulation material that would satisfy his interests in terms of such parameters as price, durability, easy installation, profitable terms delivery, etc.
Thermal insulation properties of keramoizol
In the modern industry of thermal insulation materials special attention given to a composite such as keramoizol. Keramoizol is an artificially created liquid thermal insulation material that is used in construction, repair, and finishing of houses. It is designed to create a coating on any surface and any hard-to-reach places.
The composite performs many functions: eliminating cold in the room, destroying fungi and mold on the walls, combating condensation on pipes. Keramoizol can be used for thermal insulation of individual parts of the room: walls, ceilings, pipelines, steam boilers, freezers etc. The composite works with any surfaces - metal, concrete, wood, plastic - at temperatures from +5 to +90°C.
The material is ideal for creating a microclimate in a room, since it not only allows it to retain heat, but also prevents the formation of microorganisms and does not generate dust.
Treating a house with ceramic insulation creates a “thermos” effect - in summer, cold air from air conditioners remains in the room much longer, and in winter, on the contrary, heat from heating devices is transferred to the walls much more slowly.
The advantages of thermal insulation material include its high vapor permeability and anti-corrosion qualities. Moreover, keramoizol significantly reduces the level solar radiation and is quite resistant to ultraviolet radiation.
The composite is often used for thermal insulation of pipes, since it has frost resistance from -50°C and heat resistance up to +250°C.
Compared to many thermal insulation materials keramoizol has high degree resistance to mechanical damage and has more simple diagram thermal insulation. In the traditional scheme, multilayer thermal insulation is used, consisting of two layers of primer, on which pierced mats are applied, a layer of vapor barrier covered with a layer of roofing material, and a layer of galvanized iron.
Application of keramoizol
When using keramoizol, it is important that the surface is degreased and free of traces of dirt, dust or paint. It is allowed to use the composite on a surface with a small layer of rust. Before applying the material, the surface should be moistened with water or primed. Next, the first primer layer of composite is applied with a thickness of no more than 1 mm. The average drying time of the layer is about 12 hours at a temperature of +20°C. Thus, the scheme for using keramoizol looks noticeably simpler than conventional thermal insulation.
The use of keramoizol also has a number of advantages over many thermal insulation materials in other areas of industry. For example, due to its low thermal conductivity, the composite is successfully used in the space industry.
WE OFFER TO YOUR ATTENTION A HIGH-TECH POLYMINAL HEAT-SAVING COMPOSITION “KERAMOIZOL” USING NANOTECHNOLOGY
Minimizing or reducing heat loss from liquids heat-insulating paints has a significant difference in understanding the mechanism of insulation of buildings. New generation insulation using nanotechnology " Keramoizol“and its energy-saving properties are explained by the fact that this paint is an optical system that is capable of reflecting heat, since “ Keramoizol“in its physical composition contains great amount hollow bodies (spherical).
At the same time, energy-saving paint has the lowest emissivity than materials that are this moment exist on the market of energy-saving building materials.
Liquid energy-saving paint has a film, the role of which is to reflect heat, that is, to return the flow of heat that leaves the room, and the surface treated with energy-saving paint is able to emit much less heat.
Thanks to such abilities as hydrophobicity and reduced resistance to vapor permeation of energy-saving paint, the surface on which Keramoizol is applied is under the thinnest film and dries in a very short time. a short time, providing the greatest thermal resistance. In this case, a process occurs in which the energy of solar heat is not used, in which moisture would evaporate from the surface layer, but the structure itself is heated.
As the results of monitoring for the presence of moisture content on structures that are coated with energy-saving paints show: the volume of moisture on the walls of the building reaches the so-called equilibrium state, that is, by reducing the moisture content, the thermal resistance of the walls has increased by 10%.
The energy-saving efficiency of using Keramoizol energy-saving paint directly depends on the initial thermal resistance of the wall, the season (time of year), the specific location where the structure is located, the density of its development and the number of clear days. The value can reach 45%.
"KERAMOIZOL" - excellent sun protection
As studies have shown, throughout the entire period of use of the Keramoizol energy-saving layer, the surface is capable of reflecting more than 90% of solar energy.
Heat penetration into the room can be reduced several times when using Keramoizol. And this, in turn, increases the level of comfort for people who are in this room and, as a result, significantly reduces consumable part for the air conditioning of this building.
Using energy-saving paint on surfaces such as oil pipelines and chemical compounds(volatile), terminals, tanks and other surfaces, it is possible to significantly reduce the temperature of the contents, as well as the degree of evaporation.
KERAMOIZOL. What he really is?
Energy saving paint " KERAMOIZOL“- this is absolutely the new kind thermal insulation using nanotechnology, which was developed by Ukrainian inventors. Thermal insulating material greatly simplifies the insulation work of residential, industrial, social and budget buildings and structures, as well as metal elements and structures, perfectly protects against condensation, freezing or overheating, and heat loss from pipelines for various purposes, from condensation – metal surfaces, slopes, suitable as a sealant for houses made of wooden log house. To achieve the desired effect Keramoizol It is enough to apply a thickness of 1 to 2 mm. You can find reviews on keramoizol and videos by following the appropriate links.
Part Keramoizol includes hollow ceramic microspheres and fillers, which allow the coating to be durable, fireproof, and also distributed as evenly as possible over the surface. This composition gives Keramoizol the properties of reflective thermal insulation, i.e. the material works like a two-way mirror.
Where did this idea come from?
This technology was developed for the American space shuttle rockets several decades ago. Because for space developments Classic bulky materials turned out to be unsuitable, then scientists were forced to look for new technologies that, with a small thickness, could provide significant protection from thermal, sound and radiation waves. It was this idea that was taken as a basis.
But KERAMOIZOL– this is a completely Ukrainian product, which is protected by a patent for an invention; all materials and components, as well as production, are Ukrainian.
Energy-saving paint "Keramoizol" is an environmentally friendly product, it has passed all tests. It can be diluted (diluted) with water, which will allow you to work with ceramic insulation in the room being treated without additional ventilation. You can also use Keramoizol with a varnish base (it is advisable to use in winter time year with air temperature less than +5 °C).
Energy-saving paint is used in the process of applying it in the same way as regular paint, usually in two or three layers using a brush or roller, spray gun, or sprayer on all types of surfaces (the exception is polyethylene).
The coating layer of energy-saving paint should be no less than 0.5 mm thick. The consumption rate of keramoizol for a coating layer is 1 liter per 2 square meters.
Drying and polymerization continues after 24 hours, after which it will be possible to apply finishing materials (putty, paint, treat with other finishing materials). After complete drying, the energy-saving material works without losing its properties. physical properties in the temperature range, which ranges from -50 °C to + 220 °C, but there is also a special high-temperature composition that can maintain its properties up to a temperature of +700 °C.
Thermal insulating coating "KERAMOIZOL" belongs to the low-flammability group B1, the non-flammable group RP1, the low-flammability group G1 with the smoke-generating ability of group D2 (moderate).
« Keramoizol“it is transported in containers that are hermetically sealed, and the consistency of the material in the container is already ready for use. In case of thickening, the suspension must be diluted with water (water), or acetone, or acetate-based solvents for varnish (no more than 15% of the original volume) solution.
In addition to high thermal insulation characteristics The new film coating has excellent soundproofing properties.
The color of the coating is grey/white, but it can be changed by adding coloring fillers.
« Keramoizol“designed for thermal insulation of industrial, administrative, communal buildings and structures with a wide variety of shapes, internal as well as external walls/surfaces of structures and buildings (concrete, brick, ceramics, wood), foundations, vehicles, steam pipelines, hot water, water heating equipment for boiler houses; roofs of refrigerated trucks, hangars, oil pipelines and oil tanks.
This material protects elements of steel profile structures used in construction from the formation of condensation on their surface and protects them from corrosion.
It is characterized by excellent adhesion (adhesion to the surface) to steel (at least 0.6 MPa), plastics (with the exception of polyethylene), concrete (at least 1 MPa), and brick. When coatings with a thickness of 3 mm are used, in equipment buildings (pumping, compressor rooms, etc.) the possibility of condensation forming on the walls is eliminated.
Using it in residential areas also prevents the formation of condensation and fungal colonies on walls, floors and ceilings. And energy costs for heating the premises in the cold season are reduced by no less than 30%.
« Keramoizol“– frost-resistant (up to -50 ° C), which allows it to be used as thermal and waterproofing of freezers, while the labor costs for creating the coating are significantly lower than when forming a thermal insulation layer with foam boards and waterproofing made of roofing felt and foil.
We care about product quality, each batch of products undergoes careful control.
That is why, if the application technology is followed, the buyer receives a guarantee from the manufacturer 7 years.
Supplied packaging - plastic buckets of 5 and 10 liters. The price is indicated without VAT.