| Aluminum Foil Laminated Fiberglass Fabrics Aluminum foil laminate with adhesive on fiberglass fabric to enhance the reflection performance to radiant high temperature for fire curtains, welding blankets, heat shields, facing materials etc. Aluminum foil’s high thermal reflectivity (up to 95%) ensures it is highly effective in reflecting radiant heat, thus protecting underlying materials or structures. When laminated with fiberglass, the resulting composite material is both strong and lightweight, offering high resistance to wear and tear. However, its porosity allows for some vapor permeability, which can be useful in specific applications where moisture dissipation is needed. |
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| Code | Thickness (mm) |
Glass Weight (g/m2) |
Alum Thickness (micron) |
Glue Type |
| FF01AF | 0.1 | 75/85/95/110/145 | 7 | Water base |
| FF02AF | 0.2 | 200 | 7/18/25 | Water base |
| FF03AF | 0.3 | 260/280/300 | 7/18/25 | Water base |
| FF04AF | 0.4 | 430 | 7/18/25 | Water/Oil |
| FF061AF | 0.6 | 600 | 7/18/25 | Water/Oil |
| FF062AF | 0.6 | 660 | 7/18/25 | Water/Oil |
| FF08AF | 0.8 | 880 | 7/18/25 | Water/Oil |
| TF208AF* | 0.8 | 600 | 18/25 | Water/Oil |
| TF10AF* | 1 | 800 | 18/25 | Water/Oil |
| TF15AF* | 1.5 | 1000 | 18/25 | Water/Oil |
| TF20AF* | 2 | 1300 | 18/25 | Water/Oil |
| SF07AF** | 0.7 | 600 | 18/25 | Water/Oil |
| * Texturized fiberglass fabric with alum foil * Silica fabric with alum foil |
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| Aluminum PET Film Laminated Fiberglass Fabrics Aluminum PET film (aluminum Mylar film) laminated fiberglass fabric: enhanced strength for stitched products including removable insulation blankets, fireproof suits, gloves, helmets and aprons. |
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| Code | Thickness (mm) |
Glass Weight (g/m2) |
Alum Thickness (micron) |
Glue Type |
| FF02AM | 0.2 | 200 | 9/12 | Oil base |
| FF04AM | 0.4 | 430 | 9/12 | Oil base |
| FF08HAM | 0.8 | 600 | 9/12 | Oil base |
| FF15AM | 1.5 | 1000 | 9/12 | Oil base |
| FF20AM | 2 | 1200 | 9/12 | Oil base |
is essentially the "super-suit" of industrial fabrics. It combines the strength of glass fibers with the heat-reflective properties of aluminum.
This composite material is created by bonding a layer of aluminum foil (or metallized polyester film) to a base layer of fiberglass cloth using a high-temperature adhesive.
|
Feature |
Function |
|
Aluminum Layer |
Reflects up to 95% of radiant heat and provides a vapor barrier. |
|
Fiberglass Base |
Provides structural integrity, high tensile strength, and fire resistance. |
|
Adhesive |
Bonds the layers; usually formulated to resist delamination under heat. |
Key Benefits
Heat Reflection: Unlike standard fiberglass which absorbs heat, the foil layer bounces radiant energy away, keeping the protected side significantly cooler.
Temperature Resistance: The fiberglass base can typically handle constant temperatures up to 550°C (1022°F), though the adhesive and foil may have lower limits for continuous contact.
Moisture & Chemical Shield: The foil acts as a barrier against water, oil, and corrosive vapors, preventing the fiberglass from soaking up contaminants.
Durability: It is non-combustible, rot-proof, and doesn't stretch or shrink significantly.
Common Applications
Insulation Jackets: Removable covers for valves, flanges, and pipes in power plants or refineries.
Automotive: Heat shields for engine compartments, exhaust wraps, and floorboard protection.
HVAC: Sealing ducts and providing thermal insulation in industrial cooling systems.
Safety Gear: Used in the outer layer of "proximity suits" for firefighters or foundry workers.
Aerospace: Protecting sensitive electronics and cables from engine radiant heat.
