Aluminum Foil Laminated Fiberglass Cloth

Made of unique composite technology, the aluminum foil fiberglass cloth can be customized in following specs: thickness of aluminum foil(7-50um), coating, fiberglass cloth type with different width and length, making it an ideal choice for a wide range application in buildings, ships, automobiles and many industries.

Aluminum Foil Laminated Fiberglass Cloth Specification

item No. thickness of foil fiberglass weight thickness(mm) width(m) weave
PT-75 7/14/18/25/38/50 aluminized film F.R alum.foil 75g/㎡ 0.12 1/1.2/1.3 plain
PT-85 85g/㎡ 0.12 1/1.2/1.3 plain
PT-95 95g/㎡ 0.14 1/1.2/1.3 plain
PT-110 110g/㎡ 0.15 1/1.2/1.3 plain
More specifications support customization.

Aluminum Foil Laminated Fiberglass Cloth Specification

PT-7628 PT-3732 PT-3784 PT-84215 PT-HT2025 PT-FW600
Weave plain 3×1 twill 8 HS satin plain plain even grain check
Warp(per/cm) 17.3 18 18 8 8 15
Weft(per/cm) 12.5 13 13 6 5.7 15
Weight(g/㎡) 200 430 880 300 610 600
Thickness(mm) 0.2 0.43 0.9 0.38 0.75 0.55
Coating Aluminum foil/Metalized film
Coating Thickness(micron) 7/18/25
Width(m) 1/1.2/1.5
Service temperature fiberglass:550℃/while mucilage:300℃
More specifications support customization.

Three Core Component of the Composite

This material is a system of three distinct layers. Click on each component below to explore its role and properties. Understanding this structure is key to proper material specification.

Comprehensive performance characteristics

Visualize the material’s key performance characteristics. The data reveals its strengths and, critically, its operational limits, which are often defined by the adhesive rather than the core components. Illustrates that the adhesive’s thermal stability is the limiting factor for the composite’s continuous operating temperature.

Component Temperature Limits

Different Properties

Industrial and commercial applications

The material’s unique combination of properties makes it a versatile solution across many industries. Explore some of its most common and critical applications below.

HVAC & Ductwork

Heat insulation materials in construction, thermal insulation covers for pipes, surface layer for removable insulation jackets.

Automotive & Aerospace

Automotive engine heat containment, welding fire protection

Protective Apparel (PPE)

Heat protective working wear and fire-protection suit, fire curtains and blankets, spark protection

Marine & Military

Facing for hull board insulation in shipboard and submarine hull

Interactive Material Comparator

How does Aluminum Foil Fiberglass Cloth stack up against other thermal fabrics? Select a material to see a side-by-side performance comparison. This tool helps in choosing the right material for your specific application.

Aluminized Cloth

Aluminized Cloth Profile

Radiant Heat Shielding

The aluminum foil layer is what elevates the material from a simple fiberglass cloth to a high-performance thermal barrier.

Advantages

Highly efficient radiant heat reflector, capable of reflecting up to 95-97% of the radiant heat

Excellent barrier against moisture, water vapor, air, and oils.

Cost-effective

Trade-offs

Not resistant to ultra-high temperatures

Not suitable for direct contact with strong alkaline environments

Aluminized Cloth vs. Silicone-Coated

Aluminized Cloth vs. Silicone-Coated

Silicone coated

Excels in dynamic applications requiring flexibility, direct weather exposure, and resistance to abrasion, oil, and chemicals. Ideal for removable insulation blankets and welding curtains.

Advantages

applications involving direct contact with hot surfaces and offers superior abrasion resistance and durability against mechanical wear

providing excellent resistance to water, oil, chemicals, and weathering

a continuous service temperature rating of around 260∘C (500∘F)

Trade-offs

Poor radiant heat reflection

Higher cost

Aluminized Cloth vs. Ceramic Fiber

Aluminized Cloth vs. Ceramic Fiber

Ceramic Fiber

Engineered for extreme high-temperature environments like furnace and kiln linings where other materials would fail. Its primary function is insulation against extreme direct contact heat.

Advantages

✓  Extreme high-temperature environments, with continuous service ratings up to 1260−1430∘C (2300−2600∘F)

✓  Excellent thermal properties

Trade-offs

Low tensile strength & poor abrasion resistance

Porous (not a vapor barrier)

Significantly higher cost