Now Available in BIG Glass Configurations.

The most common insulating glass unit is constructed with two plies of glass and one sealed air space. This configuration is a dual pane or double pane insulating glass unit, however is commonly shortened to insulating glass.

Insulating glass is used due to the improvement in solar performance it provides. The most significant improvement is thermal performance (u-value) which improves by approximately 50% when compared to a monolithic glass ply. This improvement occurs whether the glass is coated or uncoated.

1/4″ Clear Monolithic

  • 1/4″ clear
  • VLT 88%
  • Winter u-value 1.02
  • Summer u-value 0.92
  • SHGC 0.82

1″ Clear Insulating

  • 1/4″ clear
  • 1/2″ air space
  • 1/4″ clear
  • VLT 79%
  • Winter u-value 0.47
  • Summer u-value 0.49
  • SHGC 0.70

1/4″ GSE1-20 Monolithic

  • 1/4″ clear with GSE-20 #2
  • VLT 20%
  • Winter u-value 0.86
  • Summer u-value 0.75
  • SHGC 0.32

1″ GSE1-20 Insulating

  • 1/4″ clear with GSE-20 #2
  • 1/2″ air space
  • 1/4″ clear
  • VLT 18%
  • Winter u-value 0.42
  • Summer u-value 0.43
  • SHGC 0.23

In addition to the improved solar performance, insulating glass offers a greater availability of coatings. Low-E coatings which cannot be exposed, and therefore cannot be used with monolithic glass, can be used inside the insulating unit where they are protected by the hermetically sealed space.

Insulating units also have more aesthetic possibilities than monolithic glass. The Low-E coating and silk-screen pattern, if desired, are applied to the exterior ply of glass leaving the interior ply available for additional treatment. For a spandrel location, a full coverage opaque ceramic frit can be applied to the inner face (surface #4). For vision areas where daylight is desired but view through needs to be minimized, a translucent ceramic frit can be applied to the surface facing the airspace (surface #3).