Isover LAM 50




Product characteristics
Large-format roof lamellas are made of basalt mineral wool, the production of which is based on the method of pulping the melt of a mixture of rocks, recycled material and other additives. The created mineral fibers are processed in the production line into the final shape of large-format lamellas. The products are hydrophobicized, but it is necessary to protect them in a suitable way in the construction (vapour-proof film, waterproofing, spreading layer of a flat roof, etc.).
Usage
Isover LAM 50 large-area roof lamellas can fully replace boards in the lower layer of the roof assembly. Thanks to their unique properties, they meet all important technical parameters even at significantly lower weights. They are used exclusively as the bottom layer of the mineral formation, e.g. under Isover S or Isover S-i boards. The boards are placed on a vapor barrier, a supporting structure, or on a fall system. It can be made from Isover SD sloped boards or double-sloped Isover DK wedges at slopes of up to 15%. We recommend supplementing the entire composition with Isover AK attic wedges for a better waterproofing transition.
Packaging, transport, storage
Isover LAM 50 large-format slats are packed on pallets with PE foil up to a maximum height of 1.3 m. The boards must be transported in covered means of transport under conditions that exclude their wetting or other deterioration. They are stored in covered areas lying down to a maximum layer height of 2 m.
Key Facts
- Significantly lower weight of the slats and thus less demands on the roof construction
- Better and easier handling
- Preservation of mechanical parameters as for plates
- Can also be used in Isover fire protection systems
- Good thermal insulation capabilities
- Low diffusion resistance - easy permeability for water vapor
- Ecological and hygienic safety
- Water repellency - insulating materials are hydrophobized
- Long life
- Resistance against wood-destroying pests, rodents and insects
- Easy machinability
Product variations
Thickness (mm) | Palette (m2) | Rozměry (mm) |
Tepelný odpor RD (m2·K·W-1) |
---|---|---|---|
Thickness (mm)100 | Palette (m2)28,08 | Rozměry (mm)2 000 × 360 |
Tepelný odpor RD (m2·K·W-1)2,4 |
Thickness (mm)110 | Palette (m2)25,92 | Rozměry (mm)2 000 × 360 |
Tepelný odpor RD (m2·K·W-1)2,65 |
Thickness (mm)120 | Palette (m2)23,76 | Rozměry (mm)2 000 × 360 |
Tepelný odpor RD (m2·K·W-1)2,9 |
Thickness (mm)130 | Palette (m2)21,6 | Rozměry (mm)2 000 × 360 |
Tepelný odpor RD (m2·K·W-1)3,15 |
Thickness (mm)140 | Palette (m2)19,440 | Rozměry (mm)2 000 × 360 |
Tepelný odpor RD (m2·K·W-1)3,4 |
Thickness (mm)150 | Palette (m2)17,28 | Rozměry (mm)2 000 × 360 |
Tepelný odpor RD (m2·K·W-1)3,65 |
Thickness (mm)160 | Palette (m2)17,28 | Rozměry (mm)2 000 × 360 |
Tepelný odpor RD (m2·K·W-1)3,9 |
Thickness (mm)180 | Palette (m2)15,12 | Rozměry (mm)2 000 × 360 |
Tepelný odpor RD (m2·K·W-1)4,25 |
Thickness (mm)220 | Palette (m2)12,96 | Rozměry (mm)2 000 × 360 |
Tepelný odpor RD (m2·K·W-1)5,35 |
Thickness (mm)240 | Palette (m2)10,8 | Rozměry (mm)2 000 × 360 |
Tepelný odpor RD (m2·K·W-1)5,85 |
Thickness (mm)300 | Palette (m2)8,64 | Rozměry (mm)2 000 × 360 |
Tepelný odpor RD (m2·K·W-1)7,3 |
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