Tedlar® Offers Excellent Printability and Clean Release
DuPont™ Tedlar® release films are ideal for transfer printing because they offer excellent printability and release cleanly from rubber and metal tubing during steam curing of rubber hoses and fan belts.
Tedlar® films can retain toughness through aggressive cycles, and offer excellent thermal stability to resist embrittlement and degradation at processing temperatures up to 185°C (365°).
For many companies, Tedlar® films have become the material of choice over triacetate and other materials because of their ability to withstand moisture and higher temperatures.
Tedlar® films are available in all popular transfer printing sizes, including nominal thicknesses of 1 mil, 1.5 mil and 2.0 mil and widths up to 72 in.
DUPONT PRODUCTS & SERVICES
Tedlar® Protective & Decorative Films
Durable, polyvinyl fluoride films that are used as a long-lasting finish for surfaces exposed to harsh environments.
Tedlar® Release Films
When used as a release liner DuPont™ Tedlar® PVF films provide clean and fast release from high temperature, complex molds.
Tedlar® Flexible Adhesives
Versatile acrylic adhesives developed for use in laminating Tedlar® PVF protective films to a variety of substrates.
RELATED USES AND APPLICATIONS
- Tedlar® Films Give Airlines Maximum Interior Design Flexibility
- Tedlar® is an Ideal Protection Material for Architectural Substrates
- Printed Circuit Board Applications
- Tedlar® Provides Easy-to-Clean Surface Finishes for Cars, Buses & Trains
- Tedlar® Release and Protective Films for Wind Turbine Blades
- Solar Panel Applications
- Anti-Graffiti Tedlar® Films
Gas Sample Bag Applications
Tedlar® release films offer gas permeation resistance into and out of the sample bags, assuring sample integrity.
Tedlar® release films help provide an ideal release for fiber-reinforced polymer (FRP) and carbon-fiber-reinforced polymer (CFRP) composites.
Electrical Power Applications
DuPont™ Tedlar® high temperature and chemical resistant properties make it ideal for use in high voltage electrical power applications.