Facade insulation – materials used as a heat-insulating layer in the heating systems for the outside building walls. They are used for facade insulation of both new buildings in the phase of construction and existing buildings while the process of reconstruction. Today there are several systems for facade insulation: light plaster systems, heavy plaster systems and mounted aerated facades.
“Sarmaterm” mineral wool or polystyrene foam can be used in the light plaster system “TERMOSHUBA” for facade insulation. If you use “Termoshuba” with “Sarmaterm” polystyrene foam there is no need to make mineral wool crosscuts.
“Insulants in facade insulation”
“SARMATERM” polystyrene foam
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Characteristics of “SARMATERM” polystyrene foam:
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Low heat conductivity |
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Moisture resistance |
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Structural stability |
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Durability |
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Light weight |
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Deformation resistance |
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Polystyrene foam benefits and advantages:
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The material is technological due to light weight and high durability.
“Sarmaterm” is an insulant which meets all the modern requirements for heat insulation of facades due to its heat conductivity, structural stability, durability, low density, and combustibility characteristics.
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Technical specifications of “Sarmaterm” polystyrene foam plates ÏÏÒ-15Í
| Specification |
Value |
| Density, kg/m3, min. |
15 |
| Compressive resistance at 10% deformation, mPa, min. | 0,1 |
| Ultimate bending strength, mPa min. | 0,16 |
| Ultimate tensile strength (at right angle to the surface), mPa, min. | 0,1 |
| Heat conductivity at 25îÑ, Âò/(ì*Ê), max. | 0,04 |
| Humidity, %, max. | 1 |
| Heat conductivity in working conditions Á Âò/(ì*Ê), max. | 0,0438 |
| Water adsorption within 24 hours, % from the whole volume, max. | 1,5 |
USE OF POLYSTYRENE FOAM IS THE MOST PROFIT-PROVED TECHNOLOGY FOR FACADE INSULATION.
PROFIT MAKES 13-15 % IN TERMOSHUBA SYSTEM WITH “SARMATERM” POLYSTYRENE FOAM INSULANT IN COMPARISON WITH MINERAL WOOL INSULANT SYSTEM.
Mineral wool plates FASROCK
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Mineral wool plates FASROCK are used as flame-retardant heat and sound insulation in light plaster systems, frame wall systems, basement floor systems.
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Mineral wool benefits
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Fire resistance, low heat conductivity, hydrophobic property, deformation resistance, sound absorption. |
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Technical specifications:
| Specification |
Value |
| Coefficient of heat conductivity λ ðàñ÷ |
0,039 [Âò/ì˚Ñ] |
| Characteristic gravity load |
1,35 êÍ/ì3 |
| Short-term water absorption |
<= 0,3 kg/m2 |
| Tensile strength (at right angle to the surface) |
>= 15 êÏà |
| Combustibility classification |
Incombustible product |
| Compressibility, % |
< 4 |
| Organic matter content, % by weight |
< 4 |
| Water absorption by weight, % max. |
< 5 |
| Ultimate bending strength, mPa |
> 0,1 |
| Resistance to direct pull, mPa |
> 0,015 |
Mineral wool plates
Ï 175, ÏÏÆ-ÃÑ 175, ÏÎ 175
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BELTEP heat-insulating mineral wool plates are used for heat insulation of building constructions when there is no contact of the product with air inside the buildings |
Technical specifications:
| Specification |
Ï 175 |
ÏÏÆ-ÃÑ 175 |
ÏÎ 175 |
| Heat conductivity, Âò/(ì•K), temperature (25±5)°Ñ |
0,046 |
0,046 |
0,046 |
| Humidity, % by weight |
0,4-1 |
0,4-1 |
0,4-1 |
| Vapor permeabilty, ìã ì*÷* Pa) |
0,551 |
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| Water absorption %, by weight |
4-40 |
4 |
40 |
| Density, kg/m3</td>
| 175 |
175±15 |
175 |
| Combustibility type |
Incombustible |
Incombustible |
Incombustible |
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