Swisspor - Biterm styrofoam, Biterm sandwich panel
Price on request
discount price
net unit price
23,98zł for m²
minimum trading quantity
the amount of product
1.00 m²
total price
net list price
32,19zł
for 1.00 m²
total price
discounted net price
23,98zł
for 1.00 m²
price-list
gross unit price 39,59zł
for m²
discount price
gross unit price
29,50zł
for m²
minimum trading quantity
the amount of product
1.00 m²
total price
gross list price
39,59zł
for 1.00 m²
total price
gross discount price
29,50zł
for 1.00 m²
Product description
Biterm are sandwich panels with a foam core, lined with heat-welded asphalt roofing felt. The core of the boards is made of foamed polystyrene boards with compressive stress at 10% relative deformation of at least 80 kPa. The cladding of the panels is made of heat-sealable asphalt roofing felt on a veil of glass fibers. At the client's request, we also laminate Biterm asphalt roofing felt with other inserts. The panels can be glued on one or both sides.
Application:
- thermal insulation of roofing with a slope not exceeding 20%, on a concrete, wooden or trapezoidal sheet,
- thermal insulation foundation in.
Technical data
- Tensile strength of the paper-foam polystyrene connection: ≥ 0.1 MPa
- Resistance of papa-polystyrene connection to water: ≥ 0.1 MPa
- Resistance of the papy polystyrene connection to the temperature +80 C and -20 C: ≥ 0.1 MPa
- Peel-to-polystyrene foam resistance to tearing, tearing moment: ≥ 20 Nmm / mm
- Fire classification in the scope of resistance to external fire: BROOF (t1) and NRO
attention
Standard dimensions are 1000 x 1000 x thickness from 40-300 mm (every 10 mm). Plate finishing: smooth or milled edges with overlap extra 5.00 PLN / m3. The thickness and finish of the edge should be given in the comments to the order. Other dimensions are available on request. Due to frequent price movements, for reasons beyond our control, please confirm the price when purchasing.
Technical data
- length:
- 1000 mm
- width:
- 1000 mm
- size:
- 40 mm
- thermal conductivity λ:
- 0,036 W/mK