+38 (050) 789-62-08
+38 (050) 789-62-08
+38 (050) 789-62-08
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info@termosilat.com
Severodonetsk

TERMOSILAT


Ceramic heat insulation coating TERMOSILAT


Ceramic heat insulation coating TERMOSILAT is new high-technology water based composite material, which is manufactured using a proprietary process based on high quality vacuum-processed ceramic bubbles. It is intended for creation of thin heat insulation coating on various surfaces in construction and housing and community amenities, thermal engineering and industry, on transport etc.


TERMOSILAT coating is made in liquid (ready to use) form, it has viscous-fluid consistency and is applied like an ordinary paint. After drying weatherproof elastic film is formed, thickness 1-3 mm, that posses unique heat insulation properties. Moreover it posses waterproof and soundproof properties providing anticorrosion protection of metal surfaces.



Characteristic features and benefits of TERMOSILAT


  • Posses unique heat insulation properties;
  • Combines heat insulation, waterproof, soundproof, anticorrosion protection and decorative coating properties;
  • Reflects and diffuses max. 95% of visible solar spectrum and max. 75% of infrared radiation;
  • Promotes quick and equal heat conduction in premises, creates comfortable living conditions;
  • Posses high vapor permeability, breathes;
  • Avoids fungus and condensate formation and surface icing up;
  • Posses insolation, humidity and temperature drop resistance, it has long service life;
  • Mechanical stability (shock, mechanical pressure, vibration etc.) allows using the coating on transport;
  • Elasticity and flexibility of coating prevents crackling formation, which occurs due to setting of building construction;
  • Water and salt mist resistance allows to use coating in maritime area;
  • Ability to use on complex configuration objects and hard-to-reach places;
  • Quick and simple application procedure;
  • Light and thin coating does not create additional load on load-bearing constructions;
  • Seamless, ancherless coating does not create cold bridges;
  • In inside envelope structures heat insulation loss of effective area is not happened;
  • Easy to repair and restore;
  • Allows to carry out local repair works eliminating cold bridges;
  • Combines with any front elevation heat insulation system;
  • Provides permanent access for monitoring and repair of insulated surface without dismantling of heat insulation;
  • Wide range of operating temperatures allows to use the coating where it is not possible to use non-heat resistant foam materials (Styrofoam, polyurethane foam, polyethylene foam);
  • Does not create holes for insects and rodents;
  • Aesthetic appearance, ink blending ability, no need to apply decorative finish coating;
  • Environmentally safe, nontoxic, can be used both indoors and outdoors (including food industry plants and childcare centers).





  • Field of application and intended use of TERMOSILAT coating



    1. Construction and housing and community amenities


  • Inside and outside wall envelopes surfaces for heat loss decrease and elimination of fungus, condensate and icing up;
  • Inside and outside roof surfaces for heat loss decrease in wintertime, air conditioning expenses decrease in summertime, hazard atmospheric factors protection, and prevention of icing formation;
  • Foundation outside surfaces for water insulation and heat insulation, elimination of fungus and icing up;
  • Inside and outside jamb surfaces for heat loss decrease, which can reach 20%, and elimination of fungus, condensate and icing up;
  • Inside surface of bathrooms and elimination of fungus and condensate;
  • Inside surface behind heaters for more effective use of heater (heat mirror effect);
  • Floor front cover for heat loss decrease in under floor heating systems;
  • Prefabs open joints (interpanel seams) for water insulation and heat insulation and hazard atmospheric factors protection;
  • Front covers and balcony plates ends in cast-in-situ construction and frame house building for water insulation and heat insulation, elimination of condensate on inside surfaces of building structures;
  • Basement inside surfaces for water insulation and heat insulation, elimination of fungus and condensate;
  • Inside and outside surfaces of envelopes, balconies and recessed balconies for heat insulation without effective area loss.


  • 2. Thermal engineering and industrial application



  • Water and steam pipelines (underground and above-ground) for heat loss decrease and metal protection against corrosion;
  • Oil pipelines, petroleum products pipeline, gas pipeline (underwater, underground and above-ground) for products viscosity normalizing in pipelines at ambient temperature fluctuations;
  • Water, petroleum products, liquefied gas and chemical products, etc. storage tanks for temperature regulation of stored products at extreme ambient temperature and metal protection against corrosion;
  • Cooling equipment for efficiency improvement and energy costs reduction;
  • Process equipment (furnaces, vessels, boilers, compressors, thermal pressing machines, blenders, dampers, valves etc.) for heat loss decrease, inspection and repair access, personnel protection against burns;
  • Metal structures (hangars, garages, etc.) for heat insulation, condensate elimination and protection against corrosion.


  • 3. Transport



  • Body and engine area inside surfaces, transport means roofs (vehicles and trucks, railway wagons, special and military transport means) for heat insulation and soundproofing of corresponding part of transport means without effective area loss at slight weight increase;
  • Outside surface of tank cars and railway tanks for temperature regulation at ambient temperature fluctuations and additional anticorrosion protection;
  • Body inside surface and roof outside surface of refrigerated truck for efficiency improvement and fuel consumption decrease without effective area loss at slight truck weight increase;
  • River and maritime vessel hull and deck inside surfaces for heat insulation and soundproofing of separate subdivisions and additional anticorrosion protection without effective area loss and weight increase.





  • TERMOSILAT physic-technical properties


    Description Standard
    Appearance matted, even, homogeneous
    Color white, grey
    Density in liquid form, kg/m3 550 - 1200
    (Bulk) Density in dry form, kg/m3 250 - 600
    Non-volatile matters content in liquid form, % Wt. 40 - 70
    Drying time at 20 to 3rd degree, min. hrs. 3
    Adhesive strength, Pa, min:
    - steel
    - concrete

    1.0
    0.8
    Water absoption by weight during 24 hrs., g/cm2, max. 0.16
    Vapour transmission, mg/(mhrP), max. 0.02
    Coating liquid proportional action resistance, h, min:
    - water at 20
    - 3% solution NaCl at 20
    - 5% solution NaOH at 60

    24
    24
    8
    Temperature fluctuations resistance (temperature range: from -40 to +60), min., cycle. 25
    Liquid form freezing-thaw resistance, min., cycle. 3
    Coating surface radiant power, per unit value 0.36 - 0.37
    Heat transfer coefficient, W/(m2) 1.8
    Thermal conductivity, (W/mK), max. 0.0018
    Coating operating temperature, from -50 to +250
    Peak operating temperature, 260
    Coating service live, min., years 25




    Possibility to use TERMOSILAT as protection against condensate formation in premises allows to not only eliminate wall freezing, but also remove fungus and mold once for all time.


    Ease and simplicity of work with material, possibility to coat the most out-of-the-way places, high heat saving indexes along with waterproofing properties and ability to breath allows TERMOSILAT to take the leading place between well-known heat-insulating material.









    info@termosilat.com
    Severodonetsk
    Gvardeisky avenue 30
    +38 (050) 789-62-08
    +38 (050) 789-62-08
    +38 (050) 789-62-08

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