+90 262 658 08 80
Products

Ultratherm

The process carried out to limit heat losses in buildings is called heal insulation. Heat insulation is applied to decrease heat transfer between two environments of different temperatures.
UltraTherm exterior facade heat insulation systems aim to provide heat insulation for buildings without increasing thickness of structural elements. Heat insulation materials of UltraTherm insulation system are both light weight and have a high resistance against heat transfer.

It is not correct to evaluate heat insulation only as energy saving from heating. The need for cooling rise everyday in our country as well as heating. UltraTherm heat insulation systems provide up to 50% saving from consumption of energy used for cooling and heating.
Heat insulation systems help you spend less energy for hot environments in the winter and cool environments in the summer.

Effective use of energy seriously helps prevention of negative environmental impacts too. Global heating is causing climate changes, which gradually destroys natural life. Greenhouse gasses like carbon dioxide (CO₂) and sulfur dioxide (SO₂) accumulation in the atmosphere increases everyday. Heat insulation decreases fuel consumption, provides more effective use of energy and decreases emission of greenhouse gasses seriously. Thus heat insulation contributes to the struggle with global warming and climate change.

Thermal comfort can be defined as a person’s thermal comfort in a medium.
People can have a comfortable life in a temperature between 20-22 °C and 50% relative humidity. Exterior temperatures are under 20 °C in the winter and over 20 °C in the summer.
It is necessary to keep the difference between interior environment temperature and surface temperature of structural elements (wall, floor,flooring) in certain values in order to provide thermal comfort.

Difference between interior facade temperature of wall and temperature of the environment should not be much in order to provide thermal comfort. This comfort will be lower in the amount this difference is higher. This difference should be at most 3 °C for a comfortable environment. If this difference is more than the ideal, it causes air flows. In this case people feel a continuous flow and chill even if the interior temperature is at demanded level. This is a reason of thermal discomfort.

Temperature differences between environment temperature and interior environment surface in buildings using UltraTherm exterior facade heat insulation system decreases. More comfortable and healthy environments are provided.

Air can preserve certain amount of vapor depending on temperature. As the temperature decreases, vapor amount that can be contained in air decreases too. Under certain barometric conditions, air in certain temperatures is called “vapor saturated” if it has the maximum amount of air it can have. In this case air is at unstable equilibrium state and in the smallest temperature decrease, some vapor condensates and liberates in water form.

As temperature and relative moisture between two surfaces of a structural element is different, different partial vapor pressures occur. Vapor molecules in air move in the same direction with heat flow and try to reach outside by passing through pores of structural elements in winter months. During this passage water vapor can dense on or inside structural element at any point and transform into water (if it contacts with a surface at saturation temperature or a temperature below). This event is called “condensation”.

Condensation on surface of structural elements is also named as “sweating”. If moisture amount at the end of condensation is high and if it stays on the surface for a long time, it can create damages like rotting and molding inside the structure.

If condensation occurs in interior section of structural elements, it creates corrosion of iron accessories and damages structure seriously and permanently.

If heat distribution on all sections of structural components is over saturation temperature, which is possible with exterior facade heat insulation systems, condensation risk decreases.

UltraTerm exterior facade heat insulation systems protect your building from exterior weather conditions and help you eliminate condensation risk.


THERMAL CONDUCTIVITY:
It is the expression of how much a material conducts heat depending on physical and chemical structure of that material. This feature determines heat insulation characteristic of a material. As thermal conductivity coefficient increases, heat insulation characteristic of material decreases.

Thermal conductivity coefficient (W/m.K): Heat amount passing from unit area (1 m2) of a material and from unit thickness (1 m) vertical to this area in 1 hour when temperature difference between two parallel surfaces of a material is 1 C.



THERMAL TRANSMITTANCE COEFFICIENT U (W/m2.K)
It is the resistance against heat transfer of a structural element which is created by putting different materials successively. Heat loss will be less with the less “U”.

WATER VAPOR TRANSMITTANCE (µ)
Water vapor diffusion resistance means the amount of water vapor passing from unit area in a unit time under certain moisture, temperature and thickness conditions of a material.Diffusion mechanism at walls of structures is defines as µ (mü) value in each structure material and each material has a vapor transmittance diffusion coefficient. This value defines vapor transmittance resistance of material when compared with air. µ value of some construction materials.

Air = 1
Mineral wool = 1
EPS = 20-100
XPS = 50-250
Bituminous membrane = 20.000-50.000
Aluminum folio = 1.000.000

WATER ABSORPTION RATE
European Standard TS EN 13499 limits water absorption amount of EPS plates with 0,5kg/m2 and TS 7316 limits it %5 as volume.

INCOMBUSTIBILITY CLASS
EPS is B1 flame retardant according to DIN 4102 and E class according to TS EN 13501-1 standard. Plate must contact directly with flame for a long time in order to start burning. When flame is removed from plate, burning ends.

DENSITY
Unit volume (1 m3) mass of material is called density. When EPS is used as heat insulation material, this affects thermal conductivity coefficient. Besides, stability and mechanical resistance of material is directly related with its density.
When EPS is used as thermal insulation the most efficient density regarding material, thermal conductivity coefficient, dimensional stability, mechanical resistance and cost is 16-20 kg/m3 (±1).
+90 262 658 08 80

Products

Ultratherm

The process carried out to limit heat losses in buildings is called heal insulation. Heat insulation is applied to decrease heat transfer between two environments of different temperatures.
UltraTherm exterior facade heat insulation systems aim to provide heat insulation for buildings without increasing thickness of structural elements. Heat insulation materials of UltraTherm insulation system are both light weight and have a high resistance against heat transfer.

It is not correct to evaluate heat insulation only as energy saving from heating. The need for cooling rise everyday in our country as well as heating. UltraTherm heat insulation systems provide up to 50% saving from consumption of energy used for cooling and heating.
Heat insulation systems help you spend less energy for hot environments in the winter and cool environments in the summer.

Effective use of energy seriously helps prevention of negative environmental impacts too. Global heating is causing climate changes, which gradually destroys natural life. Greenhouse gasses like carbon dioxide (CO₂) and sulfur dioxide (SO₂) accumulation in the atmosphere increases everyday. Heat insulation decreases fuel consumption, provides more effective use of energy and decreases emission of greenhouse gasses seriously. Thus heat insulation contributes to the struggle with global warming and climate change.

Thermal comfort can be defined as a person’s thermal comfort in a medium.
People can have a comfortable life in a temperature between 20-22 °C and 50% relative humidity. Exterior temperatures are under 20 °C in the winter and over 20 °C in the summer.
It is necessary to keep the difference between interior environment temperature and surface temperature of structural elements (wall, floor,flooring) in certain values in order to provide thermal comfort.

Difference between interior facade temperature of wall and temperature of the environment should not be much in order to provide thermal comfort. This comfort will be lower in the amount this difference is higher. This difference should be at most 3 °C for a comfortable environment. If this difference is more than the ideal, it causes air flows. In this case people feel a continuous flow and chill even if the interior temperature is at demanded level. This is a reason of thermal discomfort.

Temperature differences between environment temperature and interior environment surface in buildings using UltraTherm exterior facade heat insulation system decreases. More comfortable and healthy environments are provided.

Air can preserve certain amount of vapor depending on temperature. As the temperature decreases, vapor amount that can be contained in air decreases too. Under certain barometric conditions, air in certain temperatures is called “vapor saturated” if it has the maximum amount of air it can have. In this case air is at unstable equilibrium state and in the smallest temperature decrease, some vapor condensates and liberates in water form.

As temperature and relative moisture between two surfaces of a structural element is different, different partial vapor pressures occur. Vapor molecules in air move in the same direction with heat flow and try to reach outside by passing through pores of structural elements in winter months. During this passage water vapor can dense on or inside structural element at any point and transform into water (if it contacts with a surface at saturation temperature or a temperature below). This event is called “condensation”.

Condensation on surface of structural elements is also named as “sweating”. If moisture amount at the end of condensation is high and if it stays on the surface for a long time, it can create damages like rotting and molding inside the structure.

If condensation occurs in interior section of structural elements, it creates corrosion of iron accessories and damages structure seriously and permanently.

If heat distribution on all sections of structural components is over saturation temperature, which is possible with exterior facade heat insulation systems, condensation risk decreases.

UltraTerm exterior facade heat insulation systems protect your building from exterior weather conditions and help you eliminate condensation risk.


THERMAL CONDUCTIVITY:
It is the expression of how much a material conducts heat depending on physical and chemical structure of that material. This feature determines heat insulation characteristic of a material. As thermal conductivity coefficient increases, heat insulation characteristic of material decreases.

Thermal conductivity coefficient (W/m.K): Heat amount passing from unit area (1 m2) of a material and from unit thickness (1 m) vertical to this area in 1 hour when temperature difference between two parallel surfaces of a material is 1 C.



THERMAL TRANSMITTANCE COEFFICIENT U (W/m2.K)
It is the resistance against heat transfer of a structural element which is created by putting different materials successively. Heat loss will be less with the less “U”.

WATER VAPOR TRANSMITTANCE (µ)
Water vapor diffusion resistance means the amount of water vapor passing from unit area in a unit time under certain moisture, temperature and thickness conditions of a material.Diffusion mechanism at walls of structures is defines as µ (mü) value in each structure material and each material has a vapor transmittance diffusion coefficient. This value defines vapor transmittance resistance of material when compared with air. µ value of some construction materials.

Air = 1
Mineral wool = 1
EPS = 20-100
XPS = 50-250
Bituminous membrane = 20.000-50.000
Aluminum folio = 1.000.000

WATER ABSORPTION RATE
European Standard TS EN 13499 limits water absorption amount of EPS plates with 0,5kg/m2 and TS 7316 limits it %5 as volume.

INCOMBUSTIBILITY CLASS
EPS is B1 flame retardant according to DIN 4102 and E class according to TS EN 13501-1 standard. Plate must contact directly with flame for a long time in order to start burning. When flame is removed from plate, burning ends.

DENSITY
Unit volume (1 m3) mass of material is called density. When EPS is used as heat insulation material, this affects thermal conductivity coefficient. Besides, stability and mechanical resistance of material is directly related with its density.
When EPS is used as thermal insulation the most efficient density regarding material, thermal conductivity coefficient, dimensional stability, mechanical resistance and cost is 16-20 kg/m3 (±1).