The plastic has a smooth, non-stick surface that is virtually unmatched. It resists adhesion from a wide range of substances, making it ideal for applications where cleanliness and ease of release are crucial. PTFE Engineering Plastic also exhibits outstanding chemical resistance, capable of withstanding exposure to strong acids, bases, and solvents without degradation.
In terms of physical properties, it has a low coefficient of friction, allowing for smooth movement of components in contact with it. This property reduces wear and tear, extending the lifespan of mechanical parts. PTFE is also highly resistant to high temperatures, maintaining its integrity and performance even in extreme heat. It has excellent electrical insulation properties, making it suitable for use in electrical and electronic applications.
Our PTFE Engineering Plastic is available in various forms, including sheets, rods, and tubes, and can be customized to meet specific dimensional and performance requirements. The material is precision-manufactured to ensure consistent quality and performance across different batches.
1. Superior Non-Stick Property: The non-stick surface of PTFE Engineering Plastic is its most distinctive feature. It enables easy release of products in manufacturing processes, such as in the production of molded parts, and simplifies cleaning in applications where residue build-up is a concern.
2. Exceptional Chemical Resistance: With its ability to resist a vast array of chemicals, PTFE is suitable for use in harsh chemical environments, such as chemical processing plants, laboratories, and pharmaceutical manufacturing facilities.
3. Low Friction Coefficient: The low coefficient of friction of PTFE reduces energy consumption in mechanical systems. It allows components to move smoothly, minimizing wear and tear and reducing the need for frequent maintenance and replacement.
4. High Temperature Resistance: PTFE can withstand high temperatures without melting or deforming, making it suitable for applications in industries such as aerospace, automotive, and food processing, where exposure to heat is common.
5. Electrical Insulation: Its excellent electrical insulation properties make PTFE Engineering Plastic a popular choice for electrical insulation applications, such as in wire and cable coatings, circuit boards, and electrical connectors.
6. Customizability: We offer a high degree of customizability for our PTFE products. Whether it's a specific size, shape, or performance requirement, our team can work with customers to provide tailored solutions.
1. Chemical Processing Industry: In chemical processing plants, PTFE Engineering Plastic is used for lining pipes, valves, and tanks to protect them from corrosion caused by aggressive chemicals. It is also used in gaskets and seals to ensure a leak-proof connection.
2. Food Processing and Packaging: In the food industry, PTFE's non-stick and easy-to-clean properties make it ideal for use in conveyor belts, food processing equipment, and packaging machinery. It ensures that food products do not stick to the surfaces, maintaining product quality and hygiene.
3. Electrical and Electronics: PTFE is widely used in the electrical and electronics industry for insulation purposes. It is used in cables, connectors, and printed circuit boards to provide reliable electrical insulation and protect against electrical shorts.
4. Aerospace and Automotive: In aerospace and automotive applications, PTFE's high temperature resistance and low friction properties make it suitable for use in components such as bearings, seals, and gaskets. It helps to reduce weight, improve fuel efficiency, and enhance the performance of these industries' products.
5. Medical and Pharmaceutical: In the medical and pharmaceutical fields, PTFE's chemical resistance and biocompatibility make it suitable for use in medical devices, such as catheters, implants, and drug delivery systems. It ensures the safety and reliability of these products.
Can be made from injection moulding or extrusion.Best chemical corrosion resistance, dielectric property.
High temperature resistance among known plastic material.Lowest friction coefficient among known solid material.
Works(no-load) in the temperature range of -180℃~+260℃.
Item | Length(mm) | Width(mm) | Thickness(mm) | Outer Diameter(mm) |
Sheet | ≤1500 | ≤1500 | 1~60 | / |
Rod | ≤1000 | / | / | 4~1600 |
Stripe | ≤1000 | / | / | 40~300 |
Tube | ≤300 | / | / | 24~100 |
The plastic has a smooth, non-stick surface that is virtually unmatched. It resists adhesion from a wide range of substances, making it ideal for applications where cleanliness and ease of release are crucial. PTFE Engineering Plastic also exhibits outstanding chemical resistance, capable of withstanding exposure to strong acids, bases, and solvents without degradation.
In terms of physical properties, it has a low coefficient of friction, allowing for smooth movement of components in contact with it. This property reduces wear and tear, extending the lifespan of mechanical parts. PTFE is also highly resistant to high temperatures, maintaining its integrity and performance even in extreme heat. It has excellent electrical insulation properties, making it suitable for use in electrical and electronic applications.
Our PTFE Engineering Plastic is available in various forms, including sheets, rods, and tubes, and can be customized to meet specific dimensional and performance requirements. The material is precision-manufactured to ensure consistent quality and performance across different batches.
1. Superior Non-Stick Property: The non-stick surface of PTFE Engineering Plastic is its most distinctive feature. It enables easy release of products in manufacturing processes, such as in the production of molded parts, and simplifies cleaning in applications where residue build-up is a concern.
2. Exceptional Chemical Resistance: With its ability to resist a vast array of chemicals, PTFE is suitable for use in harsh chemical environments, such as chemical processing plants, laboratories, and pharmaceutical manufacturing facilities.
3. Low Friction Coefficient: The low coefficient of friction of PTFE reduces energy consumption in mechanical systems. It allows components to move smoothly, minimizing wear and tear and reducing the need for frequent maintenance and replacement.
4. High Temperature Resistance: PTFE can withstand high temperatures without melting or deforming, making it suitable for applications in industries such as aerospace, automotive, and food processing, where exposure to heat is common.
5. Electrical Insulation: Its excellent electrical insulation properties make PTFE Engineering Plastic a popular choice for electrical insulation applications, such as in wire and cable coatings, circuit boards, and electrical connectors.
6. Customizability: We offer a high degree of customizability for our PTFE products. Whether it's a specific size, shape, or performance requirement, our team can work with customers to provide tailored solutions.
1. Chemical Processing Industry: In chemical processing plants, PTFE Engineering Plastic is used for lining pipes, valves, and tanks to protect them from corrosion caused by aggressive chemicals. It is also used in gaskets and seals to ensure a leak-proof connection.
2. Food Processing and Packaging: In the food industry, PTFE's non-stick and easy-to-clean properties make it ideal for use in conveyor belts, food processing equipment, and packaging machinery. It ensures that food products do not stick to the surfaces, maintaining product quality and hygiene.
3. Electrical and Electronics: PTFE is widely used in the electrical and electronics industry for insulation purposes. It is used in cables, connectors, and printed circuit boards to provide reliable electrical insulation and protect against electrical shorts.
4. Aerospace and Automotive: In aerospace and automotive applications, PTFE's high temperature resistance and low friction properties make it suitable for use in components such as bearings, seals, and gaskets. It helps to reduce weight, improve fuel efficiency, and enhance the performance of these industries' products.
5. Medical and Pharmaceutical: In the medical and pharmaceutical fields, PTFE's chemical resistance and biocompatibility make it suitable for use in medical devices, such as catheters, implants, and drug delivery systems. It ensures the safety and reliability of these products.
Can be made from injection moulding or extrusion.Best chemical corrosion resistance, dielectric property.
High temperature resistance among known plastic material.Lowest friction coefficient among known solid material.
Works(no-load) in the temperature range of -180℃~+260℃.
Item | Length(mm) | Width(mm) | Thickness(mm) | Outer Diameter(mm) |
Sheet | ≤1500 | ≤1500 | 1~60 | / |
Rod | ≤1000 | / | / | 4~1600 |
Stripe | ≤1000 | / | / | 40~300 |
Tube | ≤300 | / | / | 24~100 |