Thermal conductivity - Import export

Ventilation bends 45˚ made from expanded polypropylene (EPP). Bends are produced in diameters 125, 160 and 200 mm. The standard wall thickness is 15 mm. Each bend has a malefemale coupling, the connection method eliminates thermal bridges. Two 45˚ bends connect easily into one 90˚ Thermal conductivity 0.039 W / m*K Airtightness class ATC2 (old D) @ 90Pa acc. to PNEN 17192201901

A femalemale coupling made of expanded polypropylene (EPP) is used to connect the EPP15 ducts, when the male part is cut off (e.g. when duct is shortened). The female coupling fits the outer diameter of the 15 mm duct. The couplings are produced in 125, 160 and 200 mm sizes. Thermal conductivity 0.039 W / m*K Airtightness class ATC2 (old D) @ 90 Pa acc. to PNEN 17192201901

Round ventilation duct made of expanded polypropylene (EPP). The most important features of the product are rigid construction, low weight, easy assembly (integrated malefemale coupling) and good thermal insulation. EPP ducts, used, for example, as sections of the supply and exhaust ventilation systems with heat recovery, do not require additional insulation. The system eliminates the formation of thermal bridges. Lenght EPP ducts 1 m sections Diameters 125, 160 and 200 mm. Wall thickness 15 mm Thermal conductivity 0.039 W / m*K Airtightness class ATC2 (old D) @ 90Pa acc. to PNEN 17192201901

Female coupling made of expended polypropylene (EPP) for connecting 43 mm thick ducts. The coupling is used as additional piece, for example when connecting ducts which were cut. Such coupling is put on the outer diameter of a duct. The female couplings are produced in the following diameters 125, 160 or 200 mm. Thermal conductivity 0.039 W / m*K Airtightness class ATC2 (old D) @ 110 Pa acc. to PNEN 17192201901

Ventilation bends 45˚ made from expanded polypropylene (EPP). Bends are produced in diameters 125, 160 and 200 mm. The standard wall thickness is 43mm (black colour). The connection method eliminates thermal bridges, no additional couplings are required. To create a 90° bend two 45° beds can be connected together. Thermal conductivity 0.039 W / m*K Airtightness class ATC2 (old D) @ 110 Pa acc. to PNEN 17192201901

We offer wide range of innovative wall, roof or cooling layered boards containing the core made of polyisocyanurate foam (PIR). These boards consist of two linings made of steel sheets galvanized on both sides, with organic polyester lacquer coating of 25 µm and the s tructural and insulation core made of rigid, Freon-free, self-extinguishing PIR foam with great thermal insulation and fire resistance. Thermal conduction coefficient is λ = 0.022 W/m*K. PIR foams are characterized by strengthened resistance against high temperatures, they decompose at temperatures over 325ºC and their carbonization is ca. 50%. The carbonized layer protects against penetration of high temperatures through a board resulting in more efficient fire protection barrier. Diversified colours and profiles result in various possibilities for architects. ​

We offer wide range of innovative wall, roof or cooling layered boards containing the core made of polyisocyanurate foam (PIR). These boards consist of two linings made of steel sheets galvanized on both sides, with organic polyester lacquer coating of 25 µm and the s tructural and insulation core made of rigid, Freon-free, self-extinguishing PIR foam with great thermal insulation and fire resistance. Thermal conduction coefficient is λ = 0.022 W/m*K. PIR foams are characterized by strengthened resistance against high temperatures, they decompose at temperatures over 325ºC and their carbonization is ca. 50%. The carbonized layer protects against penetration of high temperatures through a board resulting in more efficient fire protection barrier. Diversified colours and profiles result in various possibilities for architects. ​

We offer wide range of innovative wall, roof or cooling layered boards containing the core made of polyisocyanurate foam (PIR). These boards consist of two linings made of steel sheets galvanized on both sides, with organic polyester lacquer coating of 25 µm and the s tructural and insulation core made of rigid, Freon-free, self-extinguishing PIR foam with great thermal insulation and fire resistance. Thermal conduction coefficient is λ = 0.022 W/m*K. PIR foams are characterized by strengthened resistance against high temperatures, they decompose at temperatures over 325ºC and their carbonization is ca. 50%. The carbonized layer protects against penetration of high temperatures through a board resulting in more efficient fire protection barrier. Diversified colours and profiles result in various possibilities for architects. ​

We offer wide range of innovative wall, roof or cooling layered boards containing the core made of polyisocyanurate foam (PIR). These boards consist of two linings made of steel sheets galvanized on both sides, with organic polyester lacquer coating of 25 µm and the s tructural and insulation core made of rigid, Freon-free, self-extinguishing PIR foam with great thermal insulation and fire resistance. Thermal conduction coefficient is λ = 0.022 W/m*K. PIR foams are characterized by strengthened resistance against high temperatures, they decompose at temperatures over 325ºC and their carbonization is ca. 50%. The carbonized layer protects against penetration of high temperatures through a board resulting in more efficient fire protection barrier. Diversified colours and profiles result in various possibilities for architects. ​