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Material Types and Specification System
Type
Thickness Range (μm)
Width Range (mm)
Production Method
Microstructure
Microstructure
Skived Film
20-1000
50-1000
Compression Sintering + Skiving
Dense, Non-porous
High Density, High Mechanical Strength, Good Electrical Insulation
Oriented Film
10-200
10-1000
Biaxial Stretching
Oriented Microporous
Anisotropic, High Tensile Strength, Controllable Breathability
Expanded Film (ePTFE)
10-500
10-1500
Expanded Stretching
3D Network Porous
Strong & Flexible, Breathable & Waterproof, Composite-ready
Colored Film
30-300
100-1000
Pigment Addition
Dense/Porous
For Identification, Good Color Fastness at High Temperatures
Composite Film
15-1000
50-2000
Lamination with Other Materials
Multilayer Structure
Integrated Functions, Improved Processability
Microporous Filter Film
50-200
100-1000
Special Stretching Process
Controlled Pore Size
Filtration Precision 0.1-10μm
Technical Parameters and Performance Indicators
Physical and Mechanical Properties
Performance Indicator
Skived Film
Oriented Film
Expanded Film (ePTFE)
Test Standard
Density (g/cm³)
2.15-2.20
1.2-2.0
0.2-1.2
GB/T 1033
Tensile Strength (MPa) MD/TD
20-40 / 20-40
30-80 / 10-30
10-50 / 5-25
GB/T 1040
Elongation at Break (%) MD/TD
200-400 / 200-400
50-200 / 200-500
100-400 / 100-400
GB/T 1040
Tear Strength (N/mm)
40-100
20-80
10-60
GB/T 16578
Air Permeability (L/m²·s)
0
10-1000
1-10000
GB/T 5453
Thermal and Electrical Properties
| Performance Indicator | Skived Film | Oriented Film | ePTFE Film | Test Standard |
| Melting Point (°C) | 327 | 327 | 327 | GB/T 19466 |
| Continuous Service Temperature (°C) | -200 to +260 | -200 to +260 | -200 to +260 | — |
| Thermal Shrinkage (% at 260°C×30min) | ≤3 | ≤5 | ≤8 | Internal Method |
| Volume Resistivity (Ω·cm) | >10¹⁸ | >10¹⁷ | >10¹⁶ | GB/T 1410 |
| Dielectric Strength (kV/mm) | 60-100 | 40-80 | 10-50 | GB/T 1408 |
| Dielectric Constant (1MHz) | 2.0-2.1 | 1.3-2.0 | 1.1-1.8 | GB/T 1409 |
Surface and Interfacial Properties
Performance Indicator
Value Range
Test Method
Water Contact Angle (°)
105-115
Sessile Drop Method
Surface Tension (dynes/cm)
18.5
Critical Surface Tension Method
Dynamic Friction Coefficient (against steel)
0.04-0.10
Friction Tester
Peel Strength (N/25mm)
0.5-5.0 (after treatment)
GB/T 2792
Typical Application Fields
Application Field
Specific Uses
Recommended Type / Thickness
Key Requirements
Sealing Applications
Flange Gaskets, Valve Seals, Pump Seals
Skived Film / Expanded Film 0.1-1.0mm
Compression Resilience, Creep Resistance, Media Resistance
Filtration Applications
High-Temp Flue Gas Filtration, Chemical Filtration, Air Dust Removal
ePTFE Laminated Filter Media 50-200μm
Filtration Precision, Air Permeability, Temperature Resistance
Electrical Insulation
High-Temp Cable Insulation, Transformer Interlayer Insulation, Capacitor Film
Oriented Film / Skived Film 25-100μm
High Dielectric Strength, Low Loss, Corona Resistance
Non-Stick Applications
Cookware Non-Stick Coating, Mold Release Layers, Roller Covering
Skived Film 0.05-0.5mm
Smooth Surface, High Temp Resistance, Non-Migratory
Medical Applications
Artificial Blood Vessels, Protective Clothing, Medical Breathable Membranes
ePTFE Film 10-100μm
Biocompatibility, Breathable & Bacteria-proof, Sterilizable
Aerospace & Aviation
Spacesuit Materials, Radomes, High-Temp Resistant Cables
Composite Reinforced Film 50-300μm
Extreme Temperature Adaptability, Radiation Resistance, High Reliability
Construction Applications
Waterproof & Breathable Membranes, Membrane Structure Materials, Roof Waterproofing
ePTFE Film 0.1-0.5mm
Weather Resistance, Breathable & Waterproof, Anti-Aging
Processing and Lamination Guidelines
1. Cutting and Slitting
- Tool Selection: Sharp carbide tools with a blade angle of 15-30°.
- Cutting Methods: Shearing, die-cutting, laser cutting (requires specific parameters).
- Slitting Key Points: Precise tension control to prevent stretching deformation.
- Cleanliness Requirements: Clean cutting environment to avoid contaminating the film surface.
2. Surface Treatment (to Improve Adhesion)
Treatment Method
Principle
Effect Duration
Applicable Film Types
Sodium-Naphthalene Treatment
Chemical Etching of Surface
Permanent
Skived Film, Oriented Film
Plasma Treatment
Surface Activation
Hours to Days
All Types
Radiation Grafting
Introducing Polar Groups onto Surface
Permanent
All Types
Primer Treatment
Coating with Special Primers
Depends on Primer
All Types
3. Lamination Processing
- Hot Press Lamination: Temperature 330-380°C, Pressure 1-10 MPa, Time 30-300s.
- Adhesive Bonding: Requires special adhesives for fluoroplastics (e.g., fluororubber adhesives).
- Melt Lamination: Co-lamination with thermoplastic fluoropolymers (e.g., PFA, FEP).
- Sewing/Welding: Used in special cases, requires specialized equipment.
Selection Decision Matrix
Application Scenario
Primary Performance Requirement
Recommended Film Type
Thickness Suggestion
Processing Key Points
High Temp & High Pressure Sealing
Creep Resistance, Media Resistance, Resilience
Filled Expanded PTFE Film
0.5-3.0mm
High cutting precision, flat surface
High-Efficiency Filtration
Filtration Precision, Air Permeability, Dust Release
ePTFE Laminated Filter Media
50-200μm
Strong lamination to substrate, uniform pore size.
High-Frequency Circuit Substrate
Low Dielectric Constant, Low Loss, Dimensional Stability
Oriented PTFE Film
25-100μm
Clean copper foil lamination, no contamination.
Medical Devices
Biocompatibility, Breathability, Sterilizability
ePTFE Film
10-100μm
Cleanroom processing, pyrogen-free.
Building Waterproofing
Weather Resistance, Breathable & Waterproof, Anti-Aging
ePTFE Construction Membrane
0.2-0.5mm
High welding strength, proper joint treatment.
Release Applications
Non-Stick Property, Temperature Resistance, Smooth Surface
Skived PTFE Film
0.05-0.3mm
Scratch-free surface, tight adhesion.
Corrosion Lining
Comprehensive Corrosion Resistance, Impermeability, Ease of Installation
Composite Reinforced PTFE Film
0.5-2.0mm
Proper seam treatment, no pinholes.
Industry Customized Solutions
1. Environmental Protection & Dust Removal Industry
- Requirements: High-temperature flue gas filtration, efficient dust release, long service life.
- Solution: ePTFE laminated filter bags with pore sizes of 0.3-3μm.
- Applications: Waste incineration, cement kilns, steel sintering flue gas dust removal.
2. 5G Communication Industry
- Requirements: High-frequency low loss, dimensional stability, weather resistance.
- Solution: Ceramic-filled PTFE composite film with controllable dielectric constant.
- Applications: Base station antennas, high-frequency circuit boards, microwave devices.
3. New Energy Battery Industry
- Requirements: Electrolyte resistance, insulation, breathable & explosion-proof.
- Solution: Multi-layer composite PTFE film combining barrier and breathability functions.
- Applications: Lithium battery separators, fuel cell proton exchange membrane substrates.
4. Semiconductor Manufacturing
- Requirements: Ultra-high purity, low extractables, resistance to high-purity chemicals.
- Solution: Electronic grade PTFE film with metal ion content <1 ppb.
- Applications: Wet process tank linings, high-purity chemical delivery pipelines.
5. Biomedical Industry
- Requirements: Sterilizability, cytocompatibility, controlled permeability.
- Solution: ePTFE films with graded pore sizes, surface bio-modified.
- Applications: Tissue engineering scaffolds, drug-controlled release membranes, blood filtration.
Storage and Maintenance
Storage Conditions
- Environment: Store indoors away from light, heat sources, and chemicals.
- Temperature: Room temperature is ideal; avoid prolonged storage above 40°C.
- Stacking: Store flat or rolled, avoid heavy pressure and sharp folding.
- Shelf Life: Theoretically indefinite, but use within 5 years is recommended.
Usage and Maintenance
- Cleaning Methods: Wipe with solvents like alcohol or acetone; avoid mechanical scratching.
- Performance Inspection: Periodically check thickness, strength, and surface condition.
- Repair Possibility: Small area damage can be patched by welding or bonding; large areas need replacement.
- Life Assessment: Under normal operating conditions, service life can reach 10-30 years.
Development Trends
Technical Development Directions
1. High Performance: Development of nano-enhanced PTFE films, increasing strength by 2-3 times.
2. Functional Composites :Multi-functional PTFE composite films with conductivity/thermal conductivity/antibacterial properties.
3. Controlled Microstructure: Gradient films with precisely controlled pore size and porosity.
4. Green Processing: Reducing processing aids, developing water-based treatment processes.
Market Application Expansion
1. Hydrogen Energy Industry: Fuel cell proton exchange membranes, hydrogen purification membranes.
2. Marine Engineering: Seawater desalination membranes, marine anti-corrosion membranes.
3. Wearable Devices: Flexible electronic substrates, waterproof and breathable fabrics.
4. Internet of Things (IoT): 5G/6G high-frequency materials, sensor protection films.
As the thin-film form of the "Plastic King," PTFE film plays an irreplaceable role in demanding environments such as high-end sealing, efficient filtration, electrical insulation, medical implants, and aerospace applications, thanks to its ultimate chemical stability, ultra-wide temperature range, unique non-stick characteristics, and excellent electrical insulation properties. With advancements in materials science and the development of high-end manufacturing, PTFE film is evolving towards higher performance, finer structures, and more integrated functionalities. Correct type selection and matching, professional processing, and standardized maintenance are key to ensuring optimal performance of PTFE film. In the future, PTFE film is destined to open up broader application prospects in strategic emerging industries such as new energy, electronic information, and biomedicine.
