SunGuard® High Durable

Diamond 66

SunGuard® High Durable (HD) glass is a high durability sputter coated solar control glass. The product provides all the optical clarity and energy performance that is traditionally associated with sputtered coatings. The durable coating is based on highly resistant materials that enable the glass to be used monolithically, when applied on the inside surface (#2). The handling and fabrication characteristics are comparable to any other product available for monolithic glass applications.Typical applications include the outer glass of double skin facades, ventilated glazing, spandrel panels, glass louvres and external shading fins for solar control shading purposes.

Appearance

Provides the optical clarity normally associated with sputtered coatings

Energy performance

Traditionally associated with sputtered coatings

Highly durable coating

With superior chemical and mechanical resistance

Easy to process

Can be tempered, heat strengthened, bent or laminated, with no limitations on its shelf life

FGS, Bonn, Germany

Product Information

Glass Substrates

  • ExtraClear

Thickness

  • 4 - 12 mm

Applications

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

Manufacturing Options

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

Available Sizes

  • Maximum Height x Width: 3210 x 6000 mm

Recommended coating positions

  • Monolithic: 2
  • Double glazed: 2

Edge Deletion

  • Required: No

Application type

  • Can be used in: Monolithic or Insulating Glass Unit

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 colour 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 colour and performance.

* Please see Colour Disclaimer at the bottom of the page for additional information.

Performance Data

  • Visible Light

    1. Transmittance [%] 65.8
    2. Reflectance outside [%] 32.1
    3. Reflectance inside [%] 33.2
    4. Colour Rendering Index (Ra) 99.0
  • Solar Energy

    1. Solar Factor (g) [%] 69.7
    2. Direct transmission[%] 67.4
    3. Reflectance outside [%] 24.3
    4. Absorption [%] 8.3
    5. UV [%] 49.9
  • Coefficients

    1. Shading Coefficient (sc) [g/0.87] 0.80
  • Thermal Properties

    1. U-Value [W/m²·K] 5.7
  • Composition

    1. Composition 6mm - Coating on surface #2
    2. Glass 1 & Coating SunGuard HD Diamond 66 on Guardian ExtraClear
    3. Calculation Standard EN 410:2011 / EN 673:2011
  • Visible Light

    1. Transmittance [%] 60.1
    2. Reflectance outside [%] 34.2
    3. Reflectance inside [%] 33.1
    4. Colour Rendering Index (Ra) 99.0
  • Solar Energy

    1. Solar Factor (g) [%] 50.1
    2. Direct transmission[%] 45.0
    3. Reflectance outside [%] 39.7
    4. Absorption [%] 15.3
    5. UV [%] 27.7
  • Coefficients

    1. Shading Coefficient (sc) [g/0.87] 0.58
  • Thermal Properties

    1. U-Value [W/m²·K] 1.1
  • Composition

    1. Composition 6mm / 16 mm / 4 mm - Coating on surface #2 and #3
    2. Glass 1 & Coating SunGuard HD Diamond 66 on Guardian ExtraClear
    3. Glass 2 & Coating ClimaGuard Premium2 on Guardian ExtraClear
    4. Gap 1 10% Air, 90% Argon
    5. Calculation Standard EN 410:2011 / EN 673:2011

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.

The thermal stress guideline is only a rough guide to the thermal safety of a glazing. Other factors such as large glass areas, shapes and patterns, thick glass, glass damaged during shipping, handling or installation, orientation of the building, exterior shading, overhangs/fins that reduce wind speed, and areas with high daily temperature fluctuations can all increase the probability of thermal breakage. The results shown are not for any specific glazing installation and do not constitute a warranty against glass breakage.