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Decoseal® for Decorative Glass
Decoseal® for Decorative Glass is a warm-edge spacer system designed specifically to accommodate and support a center lite of glass or decorative panel, thereby reducing the assembly steps necessary in the fabrication process of triple glazing. It’s an optimal solution for decorative glass glazing, helping you to imbue decorative units with the same enhanced thermal performance as standard units.
TECHNICAL DATA
- Concentrated desiccant layer
- Thermally broken edge-seal system
- A low profile to accommodate secondary sealing or structural reinforcement in large lites
- Imprint for product authenticity
- Optimized packaging
Variety of sizes and options to accommodate different airspaces:
- Groove
- Groove width
- Groove depth for airspaces under ½” (12.7 mm)
- Groove depth for airspaces ½” and over
BENEFITS
- Four times more efficient than aluminum spacer bar
- Rapid dew point development
- Low moisture vapor transmission rate
- Reduces the risks associated with conventional methods of triple fabrication
- Easily incorporated with high-performance glass and gas options
Want to learn more?
IG Systems Product Literature
Safety Data Sheet
ADDITIONAL PRODUCT INFORMATION
GROOVE | GROOVE WIDTH (INCHES) | GROOVE DEPTH FOR AIRSPACES UNDER 1/2" (12.7 mm) | GROOVE DEPTH FOR AIRSPACES 1/2" & OVER (12.7 mm) |
---|---|---|---|
T | 0.176" (4.47 mm) target | 0.125" (3.2 mm) | 0.140" (3.6 mm) |
U | 0.220" (5.59 mm) target | 0.125" (3.2 mm) | 0.140" (3.6 mm) |
W | 0.280" (7.11 mm) target | 0.125" (3.2 mm) | 0.140" (3.6 mm) |
PERFORMANCE | NORM |
---|---|
Moisture Vapor Transmission Rate 0.02-0.03 g H20/100 sq. in. per 24 hrs. for a .020” (.51 mm) film at 100° F (38° C). | ASTM F 1249 |
Volatile Fogging Passes | ASTM E 1887 HIG E 2189 CGSB 12.8 |
Norm | ASTM D 1434 |
Argon Permeance 6-8 cm3/100 in.2 per 24 hrs. per atmosphere as measured on a .040” (1.02 mm) film at 77° F (25° C). | |
Resistance of Compression of Self-Contained Aluminum Spacer 1,300 pounds per linear foot, when compressed at rate of 2” (50 mm) per minute. |
This page was last updated on October 28, 2024. Downloaded document versions may differ. Please check the individual documents for most current version.