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  1. There are more products that fulfill technical criteria for your country available through vendors from abroad.
  2. INOUTIC ARCADE TRIPLE GLAZING

    Arcade offers a profile depth of 71 mm to award windows high-stability and good thermal insulation.
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    Material of frame
    PVC
    Number of panes
    3
    Filling
    Argon
    Thermal insulation resistance (R-value)
    1.29 (m²·K)/W
    Thermal transmittance (U-value)
    0.77 W/(m²·K)
  3. INOUTIC EFORTE TRIPLE GLAZING

    Featuring a profile depth of 84 mm, a conventional steel reinforcement and without additional insulating elements, Eforte accomplishes a optimal Uf-value of 0.64 W/m2K with triple glazing.
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    Material of frame
    PVC
    Number of panes
    3
    Filling
    Argon
    Thermal insulation resistance (R-value)
    1.56 (m²·K)/W
    Thermal transmittance (U-value)
    0.64 W/(m²·K)
  4. INOUTIC EFORTE DOUBLE GLAZING

    Featuring a profile depth of 84 mm, a conventional steel reinforcement and without additional insulating elements, Eforte accomplishes a optimal Uf-value of 0.95 W/m2K with triple glazing.
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    Material of frame
    PVC
    Number of panes
    2
    Filling
    Argon
    Thermal insulation resistance (R-value)
    1.05 (m²·K)/W
    Thermal transmittance (U-value)
    0.95 W/(m²·K)
  5. INOUTIC PRESTIGE TRIPLE GLAZING

    INOUTIC PRESTIGE is using the state-of-the-art 6-chamber technology and a profile depth of 76 mm. you can benefit from great energy savings and substantially reduce heating costs. Compared to standard windows with single glazing Inoutic windows with their high quality insulated glass can reduce heating costs by up to 40 %.
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    Material of frame
    PVC
    Number of panes
    3
    Filling
    Argon
    Thermal insulation resistance (R-value)
    1.51 (m²·K)/W
    Thermal transmittance (U-value)
    0.66 W/(m²·K)
  6. INOUTIC PRESTIGE DOUBLE GLAZING

    INOUTIC PRESTIGE is using the state-of-the-art 6-chamber technology and a profile depth of 76 mm. you can benefit from great energy savings and substantially reduce heating costs. Compared to standard windows with single glazing Inoutic windows with their high quality insulated glass can reduce heating costs by up to 40 %.
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    Material of frame
    PVC
    Number of panes
    2
    Filling
    Argon
    Thermal insulation resistance (R-value)
    0.76 (m²·K)/W
    Thermal transmittance (U-value)
    1.00 W/(m²·K)
  7. Veka Topline

    PVC windows for residential areas: Veka Topline Uf = 1.3 W / m²K (5 chambers); triple glazing Ug = 0.7 W / m²K, with two high-efficiency low-emission glasses with a thickness of 4 mm, warm edge spacer, 14mm distance between the panes, argon between the panes.
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    Material of frame
    PVC
    Number of panes
    3
    Filling
    Argon
    Thermal insulation resistance (R-value)
    0.96 (m²·K)/W
    Thermal transmittance (U-value)
    1.04 W/(m²·K)
  8. Veka Topline

    PVC windows for residential areas: Veka Topline Uf = 1.3 W / m²K (5 chambers); double glazing Ug = 1,2 W / m²K with two high-efficiency low-emission glasses with a thickness of 4 mm, warm edge spacer, 14mm distance between the windows, air between the windows.
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    Material of frame
    PVC
    Number of panes
    3
    Filling
    Air
    Thermal insulation resistance (R-value)
    0.84 (m²·K)/W
    Thermal transmittance (U-value)
    1.19 W/(m²·K)
  9. Veka Swingline

    PVC windows for residential areas: Veka Swingline Uf = 1.3 W / m²K (5 chambers); triple glazing Ug = 0.7 W / m²K, with two high-efficiency low-emission glasses with a thickness of 4 mm, warm edge spacer, 14mm distance between the panes, argon between the panes.
    Add to List
    Material of frame
    PVC
    Number of panes
    3
    Filling
    Argon
    Thermal insulation resistance (R-value)
    0.96 (m²·K)/W
    Thermal transmittance (U-value)
    1.04 W/(m²·K)
  10. Veka Swingline

    PVC windows for residential areas: Veka Swingline Uf = 1.3 W / m²K (5 chambers); double glazing Ug = 1,2 W / m²K with two high-efficiency low-emission glasses with a thickness of 4 mm, warm edge spacer, 14mm distance between the windows, air between the windows.
    Add to List
    Material of frame
    PVC
    Number of panes
    3
    Filling
    Air
    Thermal insulation resistance (R-value)
    0.84 (m²·K)/W
    Thermal transmittance (U-value)
    1.19 W/(m²·K)
  11. Veka Softline 82 AD

    PVC windows for residential areas: Veka Softline 82 AD Uf = 1.1 W / m²K (6 chambers); triple glazing Ug = 0.7 W / m²K, with two high-efficiency low-emission glasses with a thickness of 4 mm, warm edge spacer, 14mm distance between the panes, argon between the panes.
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    Material of frame
    PVC
    Number of panes
    3
    Filling
    Argon
    Thermal insulation resistance (R-value)
    1.01 (m²·K)/W
    Thermal transmittance (U-value)
    0.99 W/(m²·K)
  12. Veka Softline 82 AD

    PVC windows for residential areas: Veka Softline 82 AD Uf = 1.1 W / m²K (6 chambers); triple glazing Ug = 0.9 W / m²K, with two high-performance low-emission glasses with a thickness of 4 mm, warm edge spacer, 14mm distance between the windows, air between the windows.
    Add to List
    Material of frame
    PVC
    Number of panes
    3
    Filling
    Air
    Thermal insulation resistance (R-value)
    0.88 (m²·K)/W
    Thermal transmittance (U-value)
    1.14 W/(m²·K)
  13. Veka Softline 82 AD

    PVC windows for residential areas: Veka Softline 82 AD Uf = 1.1 W / m²K (6 chambers); triple glazing Ug = 0.9 W / m²K, with one high-efficiency low emission glass with a thickness of 4 mm, warm edge spacer, 16mm distance between the panes, argon between the panes.
    Add to List
    Material of frame
    PVC
    Number of panes
    3
    Filling
    Argon
    Thermal insulation resistance (R-value)
    0.88 (m²·K)/W
    Thermal transmittance (U-value)
    1.14 W/(m²·K)
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