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PTFE Gasket/ PTFE Filled Gasket
Ⅰ、Features
PTFE envelope gasket is a kind of static seals.It is composed of elastic materials such as compressed asbestos sheet,rubber,ceramics,etc. And PTFE envelope cover.
PTFE has superior properties against chemical(not affected by all chemicals except molten alkali metal and fluorine at elevated temperature) and temperature(from - 180℃ ~ +250℃)The coefficient of static and dynamic friction of PTFE are every low.PTFE is the best of the “non-stick”material. It has excellent anti weathering and aging characteristics.
Ⅱ、Types and Specifications:
PTFE Envelope Gasket
Note: (Thickness)Gasket slot width
PTFE Flange Gasket
Different standards of different specifications gasket, according to customer drawings for processing
Ⅲ、Applications
PTFE envelope gasket is used to seal pipe flange anti joint of industrial machinery apparatus which is lined with rubber,plastic ceramics graphite etc.
PTFE Envelope Gasket Technical Introduction
PTFE envelope gaskets are high-performance sealing elements composed of a polytetrafluoroethylene (PTFE) envelope layer composite with various reinforcing core materials. This product perfectly integrates the exceptional chemical inertness of PTFE with the mechanical strength of reinforcing materials, establishing a benchmark solution in modern industrial sealing.
Core Value Proposition
1. Chemical Protection Expert
Withstands highly corrosive media like 98% concentrated sulfuric acid and 37% hydrochloric acid, maintaining a stable seal under alternating acid-base conditions.
2. Extreme Condition Guardian
· Cryogenic Type: No embrittlement in -196°C liquid nitrogen environments.
· High-Temperature Type: Short-term temperature resistance up to 300°C (graphite reinforced version).
3. Intelligent Sealing Innovation
Latest models integrate pressure-sensing fibers for real-time seal status monitoring (optional).
Technology Evolution Milestones
· Fifth-generation products utilize gradient density compression technology, increasing edge sealing pressure by 50%.
· Nano-Al₂O₃ modified versions achieve a 60-year design life in nuclear power applications.
· Laser micro-perforation treatment technology increases sealing contact area by 70%.
Typical Application Scenarios
· Chemical Industry: Chlor-alkali production equipment, pickling line flange seals.
· Energy Sector: LNG terminal cryogenic pipelines, nuclear power plant main pumps.
· Electronics Manufacturing: Ultra-pure media transfer in semiconductor wet process equipment.
· Biopharmaceutical: Sterile bioreactors meeting FDA requirements.
Current Technology Frontiers:
· Graphene-modified gaskets under testing achieve thermal conductivity of 25 W/(m·K).
· 4D printed shape-memory gaskets can self-adapt to flange deformation.
· Biodegradable PTFE composite materials are in the pilot testing stage.
This product series covers full sizes from DN15 to DN3000, has passed 18 international certifications including ASME and PED, and has been successfully applied in major engineering projects across more than 50 countries worldwide.
Basic Characteristic Parameters
Parameter Item
Technical Indicator
Test Standard
Material Composition
PTFE + Metal/Non-metal Core
ASTM D1710
Operating Temperature
-196°C ~ +260°C (short-term 300°C)
ASTM D696
Rated Pressure
0.6 ~ 15 MPa (depending on structure type)
ASME B16.20
Compression Rate
15 ~ 25%
ASTM F36
Recovery Rate
≥ 15%
ASTM F36
Density
2.1 ~ 2.3 g/cm³
ASTM D792
Structure Type Comparison
Type
Core Material
Pressure Range
Characteristics
Applicable Standard
Standard Type
Rubber
≤ 2.5 MPa
Economical, General Purpose
DIN 2690
Reinforced Type
304 Stainless Steel
≤ 10 MPa
Compression & Creep Resistant
ASME B16.21
High-elasticity Type
Graphite
≤ 6 MPa
Good High-Temperature Stability
EN 1514-1
Conductive Type
Carbon Fiber
≤ 4 MPa
Surface Resistance 10⁴ Ω
ISO 8031
Ultra-high Purity Type
PFA Composite
≤ 3 MPa
Metal Ion Leachables < 0.1 ppb
SEMI F57
Typical Structure Types
Type
Structural Features
Applicable Pressure
Typical Application
Rubber Core Envelope
PTFE envelope over NBR/SBR rubber
≤ 2.5 MPa
Low-pressure acid/alkali pipelines
Metal Serrated Core
Stainless steel corrugated plate + double-sided PTFE envelope
≤ 15 MPa
High-pressure flanges in petrochemicals
Graphite Reinforced
PTFE + Expanded Graphite composite layer
≤ 10 MPa
High-temperature steam systems
Teflon® Composite
PFA inner layer + PTFE outer layer
≤ 6 MPa
Ultra-high purity electronic chemical transfer
Dimension Parameter Table
Nominal Diameter DN
Flange OD (mm)
Gasket ID (mm)
Gasket Thickness (mm)
15
95
18
1.5 / 3.0
50
165
55
2.0 / 3.0
100
220
105
2.5 / 4.5
300
400
305
3.0 / 5.0
600
705
610
4.0 / 6.0
Industry Certification Comparison
Certification Standard
Certification Content
Applicable Industry
FDA 21 CFR 177.1550
Food Contact Safety Certification
Food / Pharmaceutical
TA Luft
German Air Purity Standard
Chemical / Environmental
NORSOK M-710
Norwegian Petroleum Standard
Oil & Gas Extraction
ASME B16.20
US Standard for Pipe Flange Gaskets
General Industry
ISO 10993-5
Biocompatibility for Medical Devices
Medical Equipment
Selection Guide by Operating Condition
Operating Requirement
Recommended
Type Technical Basis
Strong Acid + High Pressure (10 MPa)
Titanium Core Reinforced Type
Corrosion Resistance + High Strength
Cryogenic (-150°C)
Nano-SiO₂ Modified Type
Anti-Cold Flow
Frequent Disassembly
Graphite Filled Composite Type
Excellent Recovery Performance
Sterile Environment
Electropolished PFA Composite
Type Ra ≤ 0.5 μm
Explosive Atmosphere
Carbon Fiber Conductive Type
Surface Resistance ≤ 10⁶ Ω
Innovative Technology Highlights
1. Surface Micro-structuring: Laser-engraved micron-level patterns increase sealing contact area by 70%.
2. Gradient Density Design: Multi-layer composite compression technology creates >20% higher density at the edges than the center.
3. Intelligent Early Warning: Embedded conductive fiber network for real-time seal failure monitoring (optional).
Industry Applications
· Chemical Industry: Reactors, pump/valve seals, resistant to special media like HF acid.
· Pharmaceutical Equipment: Sterile pipeline connections meeting FDA requirements.
· Energy Sector: LNG pipeline flanges, nuclear power plant cooling systems.
· Food Processing: Dairy fermentation tanks, juice filling line seals.
Selection Key Points
1. Media Compatibility: Verify PTFE resistance to specific chemicals.
2. Operating Parameters: Select core material type based on temperature/pressure (e.g., rubber core prohibited >150°C).
3. Flange Standard: Match flange face type (RF/FF/RJ, etc.) and dimensional accuracy.
