What is PTFE?
2025/11/6
PTFE (Polytetrafluoroethylene) is a high-performance fluoropolymer renowned for its exceptional heat resistance and low friction. While commonly called Teflon, that name is actually DuPont’s trademark. PTFE is one of the most versatile fluoropolymers, alongside PVDF, PCTFE, and PFA, and is widely used in industrial, scientific, and commercial applications.
Key Properties
Thermal Resistance
PTFE has a melting point of 327 °C and performs reliably across a broad temperature range from –250 °C to 260 °C.
Chemical Resistance
PTFE resists strong acids, alkalis, and solvents, maintaining stability without degradation or leaching.
Non-Stick Surface
PTFE naturally resists adhesion, making it ideal for applications requiring cleanliness and hygiene.
Low Friction
With the lowest coefficient of friction among plastics, PTFE performs exceptionally in high-load, low-speed environments.
Weather Resistance
PTFE maintains its properties even after prolonged outdoor exposure, and its near-zero water absorption ensures excellent moisture resistance.
Electrical Insulation
PTFE provides outstanding electrical insulation, maintaining consistent performance across temperature ranges and frequencies, with strong arc resistance.
Flame Resistance
PTFE’s molecular structure is naturally flame-retardant and prevents flame propagation.
Applications
PTFE is used in both machined components and surface coatings. A common consumer example is non-stick cookware, which leverages PTFE’s heat resistance and non-stick properties. In industrial applications, PTFE’s thermal stability, chemical resistance, and low friction make it ideal for packings, seals, gaskets, and sliding components in demanding environments. It is widely used in chemical plants, scientific instruments, semiconductor and LCD manufacturing, as well as food processing and medical devices.
Machining Considerations
Dimensional Stability
PTFE can expand or contract with temperature changes, particularly near room temperature. To ensure precision, it should be annealed before machining to release residual stress.
Burr Control
Machining PTFE can generate burrs, so selecting the right tools and feed rates is essential for clean edges.
Deformation
PTFE is highly elastic and may deform during cutting, measurement, or handling. Careful machining and packaging are necessary to avoid distortion.
JIS Standard Machining Tolerances
Nominal Dimension Range (mm) | Grade 1 (mm) | Grade 2 (mm) |
|---|---|---|
1 to 16 | ±0.1 | ±0.3 |
16 to 40 | ±0.2 | ±0.6 |
40 to 63 | ±0.3 | ±0.8 |
63 to 100 | ±0.4 | ±1.0 |
100 to 160 | ±0.5 | ±1.2 |
160 to 250 | ±0.6 | ±1.4 |
250 to 400 | ±0.7 | ±1.7 |
400 to 630 | ±1.0 | ±2.0 |
630 to 1000 | ±1.5 | ±2.5 |
Step Up Your Project with Yumoto Electric
Yumoto Electric delivers high-quality components fast, worldwide. We provide precision machining for a wide range of engineering plastics, including PEEK, PPS, MC Nylon, and POM.
If you’re unsure about material selection or machining methods, we offer complimentary consultations to help optimize your design and production. For any questions, please feel free to contact us.
