AAG skydome with aluminium frame AAG skydome with aluminium frame

 

AAG wing overview and technical data

Reaction to fire Class
Heat transfer coefficient - glazing Ut
Heat transfer coefficient - skydome without upstand Ur
Heat transfer coefficient - skydome with upstand Urc
Upward load UL
Downward load DL
Soft body impact SB
Air permeability AP
Sound transmission loss Rw
Watertightness Comply
Hard body impact Comply
Radiation properties tD65 /g
  •  without burnished wired glass - reaction to fire according to ČSN EN 13 501-1
  • Dome glazing with reaction to fire, PET-G 2 - 5 skin
    • reaction to fire according to ČSN EN 13 501-1
    • top layer - PET-G dome, clear
    • bottom layers - PET-G dome, clear
    • aluminium AAG frame thermally broken
    Reaction to fire:
    with upstand from steel = B, with upstand from PVC = E
    Heat transfer coefficient Ut/Ur/Urc (W/m2.K):
    double skin = 2,7/2,4/1,7, triple skin = 1,8/1,8/1,4, quad skin = 1,3/1,5/1,3, pětivrstvá = 1,1/1,4/1,2 W/m2.K
    Radiation properties (tD65/g):
    double skin = 77%/0,74, triple skin = 68%/0,64, quad skin = 60%/0,55, penta skin = 53%/0,47
    UL = 3000, DL = 2500, SB = 1200, AP 6, Rw = 26 dB (PET-G/4)
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  • Dome glazing with reaction to fire, PET-G/PC sheet
    • reaction to fire according to ČSN EN 13 501-1
    • top layer - double skin PET-G dome, clear
    • bottom layer - 25 mm PC sheet, clear or opal diffused
    • Heat transfer coefficient
    Reaction to fire:
    with upstand from steel = B, with upstand from PVC = E
    Heat transfer coefficient Ut/Ur/Urc = 0,87/1,2/1,1 W/m2.K
    Radiation properties (tD65/g): PC tl.25 mm, clear = 38%/0,36, opal diffused = 31%/0,31 
    UL = 3000, DL = 2500, SB = 1200, AP 4, Rw = 30 dB
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    download technical drawings
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