Architectural
Building System Solutions

Fire protection systems

FR90

  • thermally insulated fire protection system. Structures designed on the basis of the FR90 system feature fire rating EI30 (E1) and I60 (E1).
  • installation depth: 90 mm
  • symmetrically designed profile, inner chamber filled with gypsum infill elements (between thermal separation sheets) – for EI30; all chambers filled with gypsum – for EI60
  • compatible with systems with the installation depth of 90 mm (STAR)
  • possibility of using a triple glazing unit (glazing: 20 mm to 68 mm)
  • option of panel infill (panel thickness 60 mm):
    - mineral wool filed panels (Up = 0.57 W/m2K)
    - gypsum filled panels
  • application: indoor and outdoor installations
  • structures: single and double doors, fixed glazing
  • maximum dimensions of the tested structure: 6000 x 3000 mm (fixed wall, single glass pane)
  • maximum dimensions of single-leaf doors: 1650 x 2870 mm
  • maximum dimensions of double-leaf doors: 3170 x 2870 mm
  • single-point and multi-point door locks, electric door strikes
  • cover plate hinges, roller hinges
  • solutions with and without thresholds
  • door kick plates (high plinth block)
  • option of air vent installation
  • optimised profiles (one profile type for the door frame and leaf)
  • quick and simple prefabrication (no processing of the glazing bar)
  • acoustics – acoustic testing of double doors featuring fire rating EI30 and EI60 for indoor and outdoor installations: 39 to 47 dB.
  • a wide range of colours – RAL palette, structural colours, Aliplast Wood Colour Effect, anodic and two-coloured.
system material depth of frame
depth of leaf
glazing range
type of windows
type of doors
FR90 fix
aluminium / polyamid
90 mm - fix 20-68 mm
fix
-
FR90 aluminium / polyamid
90 mm 90 mm 20-68 mm - single and double doors
performance
system thermal insulation Uf*
air permeability
windload resistance
watertightness
FR90
Uf from 2,145 W/m2 Class 4; EN 12207  C1 (400Pa); EN 12210 A4 (150 Pa); EN 12208

*thermal insulation is dependent on a combination of profiles and thickness of the filling

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