Isover Multimax 30



Product characteristics
Insulating boards made of Isover glass mineral felt. The production is based on the method of fiberizing the glass melt and other additives and additives. The mineral fibers created are processed into the final shape of the plates within the production line. The fibers are hydrophobized over the entire surface. It is necessary to protect the boards in the construction in a suitable way against the effects of the weather (external cladding, possibly diffusion film).
Usage
Isover Multimax 30 boards are suitable for insulating the outer walls of pre-hung facade systems, they are inserted under the lining in the grid or mechanically anchored in multi-layer masonry. The boards can be mechanically anchored to the wall with holders for soft MW insulation. Insulation boards are not glued to the substrate. In the case of using Multimax 30 material to insulate false ceilings, it is also necessary to consider in advance the use of metal dowels for the sake of fire safety, and their placement must not be on the edge of the board.
Especially energy-saving type of insulation, λD = 0.030 W·m-1·K-1.
Packaging, transport, storage
Isover Multimax 30 insulation boards are packed in PE foil up to a maximum package height of 0.5 m. The boards must be transported in covered means of transport under conditions that exclude their wetting or other deterioration. The products are stored in covered areas or on the external environment according to the conditions specified in current price list.
Key Facts
- flammability
- very good thermal insulation capabilities
- excellent acoustic properties in terms of sound absorption
- 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 – products can be cut, drilled, etc.
- dimensional stability during temperature changes
Product variations
Thickness (mm) | Length x Width (mm) | Packaging (m2) | Transport packaging (m3) | Palette (m2) | Quantity per package (pcs) | Thermal resistance RD (m2·K·W-1) |
---|---|---|---|---|---|---|
Thickness (mm)30 | Length x Width (mm)1 200 × 600 | Packaging (m2)12,96 | Transport packaging (m3)0,39 | Palette (m2)155,52 | Quantity per package (pcs)18 | Thermal resistance RD (m2·K·W-1)1,00 |
Thickness (mm)50 | Length x Width (mm)1 200 × 600 | Packaging (m2)7,92 | Transport packaging (m3)0,40 | Palette (m2)95,04 | Quantity per package (pcs)11 | Thermal resistance RD (m2·K·W-1)1,65 |
Thickness (mm)100 | Length x Width (mm)1 200 × 600 | Packaging (m2)3,60 | Transport packaging (m3)0,36 | Palette (m2)43,20 | Quantity per package (pcs)5 | Thermal resistance RD (m2·K·W-1)3,30 |
Thickness (mm)150* | Length x Width (mm)1 200 × 600 | Packaging (m2)2,88 | Transport packaging (m3)0,43 | Palette (m2)34,56 | Quantity per package (pcs)4 | Thermal resistance RD (m2·K·W-1)5,00 |