SunGuard® SuperNeutral®

SN 54

Photo Credit: 2016 ©Sam Kittner/ kittner.com

Strike a balance between color neutrality and solar control

SunGuard SuperNeutral 54 coated glass can capture the right look, let light shine and help keep energy costs low. This solution helps reduce glare to make views more beautiful, offers a neutral outdoor appearance and blends with a wide range of architectural features.

Key features:

Less glare transmitted to the interior
Faithful color: Best-in-class CRI (color rendering index)
Neutral: Accurate outdoor appearance
Lowest solar heat gain: 28% heat transmitted through the glass

Request SN 54 sample

Product Downloads:

SN 54 Flyer SunGuard Brochure Building Information Modeling (BIM)

CSI 3-Part Specifications:

Download SN 54 Spec

Product Information

Applications

  • Facades
  • Windows
  • Doors
  • Curtain Walls
  • Roofs
  • Skylights

Manufacturing Options

  • Tempered
  • Laminated
  • Heat Soaked
  • Bent
  • Heat Strengthened
  • Annealed

Float Glass Substrates

  • Guardian UltraClear® (6-10 mm)
  • Clear (6-12 mm)
  • CrystalBlue® (6 mm)
  • CrystalGray® (6-10 mm)
  • Gray (6 mm)
  • Green (6 mm)

Recommended coating positions

  • Double glazed: #2 surface
  • Triple Glazed: #2 surface

Product Color Swatches

Transmitted Color - the appearance when looking through glass in daylight.

Guardian UltraClear® (6-10 mm)

Clear (6-12 mm)

CrystalBlue® (6 mm)

CrystalGray® (6-10 mm)

Gray (6 mm)

Green (6 mm)

Visual appearance

Use the glass visualizer to get an introductory understanding of how glass will appear in use. Use the Glass Analytics tools to explore even more options for color and performance.

Visual appearance

Use the glass visualizer to get an introductory understanding of how glass will appear in use. Use the Glass Analytics tools to explore even more options for color and performance.

Launch Glass Visualizer

*Intended to represent the reflected/transmitted color on clear; however, glass color cannot be accurately portrayed online. Please see color disclaimer at bottom of the page.
For more information and additional mockups visit the full Glass Visualizer.

Performance Data

  • TRANSMITTANCE

    1. Visible Light 56%
    2. Ultraviolet 22%
    3. Solar Energy 26%
    4. Light to Solar Gain (LSG) 1.96
  • Reflectance

    1. Visible Light Outside 13%
    2. Visible Light Inside 19%
    3. Solar Energy Outside 44%
  • U-VALUE

    1. Winter Nighttime - Argon(90%) 0.24
    2. Winter Nighttime - Air 0.29
    3. Summer Daytime - Air 0.27
  • Heat Gain

    1. Relative Heat Gain (RHG) 69
    2. Solar Heat Gain Coefficient (SHGC) 0.29
  • Composition

    1. IG 6 mm/12.7 mm/6 mm - Coating on surface #2
    2. Outboard lite SunGuard SN 54 on UltraClear
    3. Inboard lite Guardian UltraClear
    4. Calculation Standard NFRC-2010
  • TRANSMITTANCE

    1. Visible Light 54%
    2. Ultraviolet 16%
    3. Solar Energy 24%
    4. Light to Solar Gain (LSG) 1.92
  • Reflectance

    1. Visible Light Outside 13%
    2. Visible Light Inside 18%
    3. Solar Energy Outside 35%
  • U-VALUE

    1. Winter Nighttime - Argon(90%) 0.24
    2. Winter Nighttime - Air 0.29
    3. Summer Daytime - Air 0.27
  • Heat Gain

    1. Relative Heat Gain (RHG) 68
    2. Solar Heat Gain Coefficient (SHGC) 0.28
  • Composition

    1. IG 6 mm/12.7 mm/6 mm - Coating on surface #2
    2. Outboard lite SunGuard SN 54 on Clear
    3. Inboard lite Guardian Float Clear
    4. Calculation Standard NFRC-2010
  • TRANSMITTANCE

    1. Visible Light 35%
    2. Ultraviolet 10%
    3. Solar Energy 16%
    4. Light to Solar Gain (LSG) 1.57
  • Reflectance

    1. Visible Light Outside 8%
    2. Visible Light Inside 17%
    3. Solar Energy Outside 22%
  • U-VALUE

    1. Winter Nighttime - Argon(90%) 0.24
    2. Winter Nighttime - Air 0.29
    3. Summer Daytime - Air 0.27
  • Heat Gain

    1. Relative Heat Gain (RHG) 54
    2. Solar Heat Gain Coefficient (SHGC) 0.22
  • Composition

    1. IG 6 mm/12.7 mm/6 mm - Coating on surface #2
    2. Outboard lite SunGuard SN 54 on CrystalBlue
    3. Inboard lite Guardian Float Clear
    4. Calculation Standard NFRC-2010
  • TRANSMITTANCE

    1. Visible Light 38%
    2. Ultraviolet 9%
    3. Solar Energy 17%
    4. Light to Solar Gain (LSG) 1.67
  • Reflectance

    1. Visible Light Outside 9%
    2. Visible Light Inside 18%
    3. Solar Energy Outside 17%
  • U-VALUE

    1. Winter Nighttime - Argon(90%) 0.24
    2. Winter Nighttime - Air 0.29
    3. Summer Daytime - Air 0.27
  • Heat Gain

    1. Relative Heat Gain (RHG) 56
    2. Solar Heat Gain Coefficient (SHGC) 0.23
  • Composition

    1. IG 6 mm/12.7 mm/6 mm - Coating on surface #2
    2. Outboard lite SunGuard SN 54 on CrystalGray
    3. Inboard lite Guardian Float Clear
    4. Calculation Standard NFRC-2010
  • TRANSMITTANCE

    1. Visible Light 27%
    2. Ultraviolet 7%
    3. Solar Energy 13%
    4. Light to Solar Gain (LSG) 1.4
  • Reflectance

    1. Visible Light Outside 7%
    2. Visible Light Inside 17%
    3. Solar Energy Outside 16%
  • U-VALUE

    1. Winter Nighttime - Argon(90%) 0.24
    2. Winter Nighttime - Air 0.29
    3. Summer Daytime - Air 0.27
  • Heat Gain

    1. Relative Heat Gain (RHG) 48
    2. Solar Heat Gain Coefficient (SHGC) 0.19
  • Composition

    1. IG 6 mm/12.7 mm/6 mm - Coating on surface #2
    2. Outboard lite SunGuard SN 54 on Gray
    3. Inboard lite Guardian Float Clear
    4. Calculation Standard NFRC-2010
  • TRANSMITTANCE

    1. Visible Light 45%
    2. Ultraviolet 7%
    3. Solar Energy 17%
    4. Light to Solar Gain (LSG) 1.89
  • Reflectance

    1. Visible Light Outside 11%
    2. Visible Light Inside 18%
    3. Solar Energy Outside 10%
  • U-VALUE

    1. Winter Nighttime - Argon(90%) 0.24
    2. Winter Nighttime - Air 0.29
    3. Summer Daytime - Air 0.27
  • Heat Gain

    1. Relative Heat Gain (RHG) 58
    2. Solar Heat Gain Coefficient (SHGC) 0.24
  • Composition

    1. IG 6 mm/12.7 mm/6 mm - Coating on surface #2
    2. Outboard lite SunGuard SN 54 on Green
    3. Inboard lite Guardian Float Clear
    4. Calculation Standard NFRC-2010

Displayed colors are intended to represent actual color. Color is a function of light and reflectivity and cannot be accurately portrayed online. Actual glass samples should be used to determine color. Please order a sample and discuss color with your Guardian Architectural Design Manager to ensure you are pleased with your SunGuard selection before ordering glass for your project.