Prodmax - thermal insulation lagging Ter Max ST
Price on request
discount price
net unit price
1,70zł for m.
minimum trading quantity
the amount of product
1.00 m.
total price
net list price
1,86zł
for 1.00 m.
total price
discounted net price
1,70zł
for 1.00 m.
price-list
gross unit price 2,29zł
for m.
discount price
gross unit price
2,09zł
for m.
minimum trading quantity
the amount of product
1.00 m.
total price
gross list price
2,29zł
for 1.00 m.
total price
gross discount price
2,09zł
for 1.00 m.
Product description
TER MAX is a product group in thermal insulation made of polyethylene foam, formed by foaming polyethylene with gas. The resulting product is in the form of a closed-cell foam, which property allows a wide range of foam applications for insulation purposes.
Our products are seasoned. During this time, the gas in the plastics contained in the cells is exchanged for air and the dimension dimension is stabilized. TER MAX lagging is made of high-quality polyethylene foam in gray. They serve as an insulation layer for conductors in hot and cold water transmission in construction.
- Apparent density of foamed polyethylene 30 - 35 kg / m
- Temperature resistance from -65 C to +95 C
- Thermal conductivity coefficient λ = 0.036 [W / mK]
- Longitudinal shrinkage at 95 C below 1.65%
- Water vapor diffusion resistance coefficient 3500
Polyethylene foam coatings have properties that prevent water vapor diffusion, which protects pipes against dew and corrosion. Due to the very low water absorption (after 24 hours WAvśr = 0.1 [%]), the coatings practically do not absorb water. Products made of foamed polyethylene also have sound-absorbing properties.
Thermal insulation insulation Ter Max ST
- gray cover 12
- gray cover 15
- gray cover 18
- gray cover 22
- gray cover 28
- gray cover 35
- gray cover 42
- gray cover 48
- gray cover 54
- gray cover 60
- gray cover 63
- gray cover 76
- gray cover 89
- gray cover 108
- gray cover 114
Technical data
- apparent density:
- 30 - 35 kg/m³
- coefficient of water vapor diffusion resistance:
- 3500
- internal diameter range lagging:
- 12 - 114 mm
- temperature resistance:
- -65 do +95 °C
- thermal conductivity λ:
- 0,036 W/mK