Post by somrat6islam222 on Feb 17, 2024 2:35:54 GMT -5
The SATE exterior thermal insulation systems for facades present a series of characteristics that make them suitable as a construction solution in accordance with the requirements contemplated in the CTE. The thermal transmittance requirements of the building envelope, in relation to the facades, are resolved with actions based on thermal insulation of the facades with EPS (expanded polystyrene) boards. The thermal conductivity values of the EPS plates (λ = .) added to the The thicknesses used provide a thermal resistance that allows practically all types of enclosures (single sheet of perforated brick, double sheet of ceramic brick, etc.) to comply with the requirements of the DB-HE.
In relation to DB-HS-, the enclosures must comply with the prevention of avoiding the presence of water or humidity inside the buildings. SATE facade thermal insulation systems are designed to resist the passage of rainwater through them. In relation to DB-SI-, the fire reaction behavior for the facades meets the requirement of the CTE is B-s-d. The SATE Facade Thermal Insulation Systems not only meet the requirements of the CTE but also provide Phone Number List other technical advantages. Increase in the thermal inertia of the enclosures. Thermal inertia is the ability of a material to withstand heat, it is directly linked to the accumulation of energy. Enclosures with a lot of inertia accumulate a lot of energy, which acts as a protective cushion against fluctuations in outside temperatures, for example in those constructions based on large walls, churches, rural mansions, etc.
Their interior temperature differs greatly from the exterior, due to their large thermal mass. In new constructions it is not possible to build these large walls to obtain control of interior temperatures, which is why enclosures are made that include insulating materials, obtaining the same efficiency values while being lighter. When we place the insulation close to the interior environment, it only contributes between and of its thermal mass to the inertia of the premises. However, when the insulation is located on the exterior face of the enclosure, SATE will contribute of the mass of the enclosure to the thermal inertia of the premises.
In relation to DB-HS-, the enclosures must comply with the prevention of avoiding the presence of water or humidity inside the buildings. SATE facade thermal insulation systems are designed to resist the passage of rainwater through them. In relation to DB-SI-, the fire reaction behavior for the facades meets the requirement of the CTE is B-s-d. The SATE Facade Thermal Insulation Systems not only meet the requirements of the CTE but also provide Phone Number List other technical advantages. Increase in the thermal inertia of the enclosures. Thermal inertia is the ability of a material to withstand heat, it is directly linked to the accumulation of energy. Enclosures with a lot of inertia accumulate a lot of energy, which acts as a protective cushion against fluctuations in outside temperatures, for example in those constructions based on large walls, churches, rural mansions, etc.
Their interior temperature differs greatly from the exterior, due to their large thermal mass. In new constructions it is not possible to build these large walls to obtain control of interior temperatures, which is why enclosures are made that include insulating materials, obtaining the same efficiency values while being lighter. When we place the insulation close to the interior environment, it only contributes between and of its thermal mass to the inertia of the premises. However, when the insulation is located on the exterior face of the enclosure, SATE will contribute of the mass of the enclosure to the thermal inertia of the premises.