PTFE Coated Fiberglass Mesh

PTFE coated fiberglass mesh combines the robust mechanical strength of fiberglass membrane with the advanced chemical resistance, thermal stability, and non-stick properties of polytetrafluoroethylene PTFE. This innovative material features an open mesh fabric design, allowing superior airflow and efficient heat transfer, making it ideal for applications like drying systems, conveyor belts, industrial filtration, and facades and shading applications. With a temperature range of -73°C to 260°C (-100°F to 500°F) and certified by FDA and SGS, PTFE fiberglass mesh offers exceptional durability, a long life expectancy excellent for demanding industrial environments.

PTFE coated fiberglass mesh is engineered to meet the most demanding industrial and architectural requirements. The base material, fiberglass membrane, provides superior tensile strength and dimensional stability, while the PTFE coating ensures non-stick properties, chemical inertness, and high thermal resistance. This unique combination of materials enables the mesh to maintain structural integrity even in harsh environments, such as high-temperature drying systems or corrosive industrial processes.

The open mesh fabric structure is designed to optimize airflow and heat transfer efficiency. In industrial drying applications, the mesh enables uniform heat distribution and prevents hotspots, reducing the risk of material defects. Additionally, the non-stick surface minimizes material adhesion, significantly reducing downtime for cleaning and maintenance.

Compared to traditional materials like stainless steel or uncoated fiberglass, PTFE coated fiberglass mesh is 40% lighter while offering up to 50% greater chemical resistance and wear durability. Its extended service life makes it a cost-effective solution for industries looking to improve operational efficiency. The mesh is also customizable, available in custom colors and limited standard color selections, to suit specific functional or aesthetic requirements in high rise rooftop decks and architectural projects.

PTFE coated fiberglass mesh is a versatile and high-performance solution for industrial and architectural applications. Its open mesh fabric design enables superior airflow and heat transfer, while its non-stick and chemically resistant properties ensure long-lasting durability in demanding environments. Backed by FDA and SGS certifications, this material guarantees compliance with global safety standards. Whether for drying systems, conveyor belts, filtration, or architectural projects, PTFE glass mesh fabric delivers unparalleled efficiency and reliability. Contact LinkCoo today to explore customized PTFE mesh solutions tailored to your industrial needs.

  • Exceptional Thermal Resistance

    • Reliable performance within a wide temperature range of -73°C to 260°C (-100°F to 500°F), suitable for high-heat applications such as drying, curing, and UV treatment.
  • Advanced Chemical Resistance

    • Resists strong acids, alkalis, and organic solvents, ensuring outstanding durability in chemically aggressive environments.
  • Non-Stick Properties

    • The smooth PTFE coating prevents material adhesion, ensuring seamless operation and reducing cleaning time.
  • Open Mesh Design

    • The open mesh fabric structure ensures efficient airflow and heat transfer, ideal for drying and filtration systems.
  • High Mechanical Strength

    • The fiberglass membrane base provides superior tensile strength, ensuring dimensional stability and resistance to deformation under load.
  • Lightweight Construction

    • 40% lighter than stainless steel alternatives, reducing operational energy costs in conveyor systems and other mechanical applications.
  • FDA and SGS Certified

    • Complies with global safety and quality standards, making it suitable for food-grade and industrial applications.
  • Customizable Design Options

    • Available in custom colors and limited standard color selections to meet specific application or aesthetic requirements.
Product NamePTFE Coated Mesh Fabric
Product FeaturesAir permeability, high strength in warp and weft, heat resistance, corrosion resistance, oil resistance, antistatic, cold resistance, slip resistance, moisture resistance, alkali resistance, heat resistance, high temperature, sometimes burning, acid resistance, flame retardant
MaterialPTFE, Fiberglass, Kevlar
ColorLight Brown, Dark Brown, Black
Temperature Resistance-70 – 260 ℃
Weight (lb./yd²)0.15 – 1.8

Tensile (lbs./in.)

59 – 600

Edge Tear Warp (grams)

35 – 6800

Edge Tear Fill (grams.)

250 – 6800
Food and Drug SafetyFDA, FCM
Tearing ResistanceEN 13537/2
Traction ResistanceASTM-D-1424
Flame PropagationEN ISO 6942 | C1
Humidity AbsorptionASTM-D-1424
Product NamePTFE Coated Mesh Fabric
Product FeaturesAir permeability, high strength in warp and weft, heat resistance, corrosion resistance, oil resistance, antistatic, cold resistance, slip resistance, moisture resistance, alkali resistance, heat resistance, high temperature, sometimes burning, acid resistance, flame retardant
MaterialPTFE, Fiberglass, Kevlar
ColorLight Brown, Dark Brown, Black
Temperature Resistance-70 – 260 ℃
Weight (lb./yd²)0.15 – 1.8

Tensile (lbs./in.)

59 – 600

Edge Tear Warp (grams)

35 – 6800

Edge Tear Fill (grams.)

250 – 6800

1. Industrial Drying Systems

  • Industry: Textiles, food processing, printing.
  • Function: The open mesh fabric design ensures even heat distribution and improved airflow in high-temperature drying environments.
  • Advantage: Reduces drying time by up to 30% while lowering energy consumption, enhancing product quality and efficiency.

2. Conveyor Belts

  • Industry: Food processing, material handling, packaging.
  • Function: The non-stick properties of PTFE coated fiberglass mesh make it an ideal solution for high-temperature conveyor belts, preventing material adhesion and ensuring smooth product handling.
  • Advantage: Extends conveyor lifespan by 300%, reduces cleaning frequency, and improves operational efficiency.

3. Industrial Filtration Systems

  • Industry: Chemical processing, pharmaceuticals, environmental protection.
  • Function: The chemically resistant coated fiberglass mesh serves as a durable filtration medium in industrial processes.
  • Advantage: Enhances filtration efficiency by 25%, reduces maintenance costs, and increases filter lifespan.

4. Architectural Applications

  • Industry: Construction and design.
  • Function: Used in facades and shading applications, PTFE glass mesh fabric provides excellent thermal stability and UV resistance while offering aesthetic appeal.
  • Advantage: Enhances building energy efficiency and durability, particularly in high rise rooftop decks.

5. Screen Printing and UV Curing Systems

  • Industry: Printing, textiles, electronics.
  • Function: The smooth, non-stick surface of PTFE coated fiberglass mesh is ideal for screen printing, ensuring consistent ink application and reducing adhesion during UV curing.
  • Advantage: Improves print quality, reduces material waste, and enhances equipment longevity.

Client: Nike (Textile Drying Systems)

  • Challenge: Traditional drying systems caused uneven heat distribution, leading to material defects and production delays.
  • Solution: Nike implemented PTFE coated fiberglass mesh in its textile drying lines.
  • Result: Reduced drying time by 30%, enhanced fabric quality, and lowered maintenance costs by 25%.

Client: Nestlé (Food Processing Conveyor Belts)

  • Challenge: Conveyor belts frequently failed due to material adhesion and wear in high-temperature environments.
  • Solution: Nestlé replaced traditional conveyor materials with PTFE fiberglass mesh.
  • Result: Extended conveyor lifespan by 300%, reduced cleaning time by 50%, and improved operational throughput.

Client: BASF (Industrial Filtration Systems)

  • Challenge: Chemical corrosion in filtration systems led to frequent replacements and increased operational costs.
  • Solution: BASF integrated coated fiberglass mesh into its filtration units.
  • Result: Improved filtration efficiency by 25%, reduced material degradation, and saved $120,000 annually in maintenance costs.
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