Tenron allows new levels of performance and safety.
- Helicopter blades
- Wing plane leading edges
- Aircraft noses
- Cockpit security doors
- Aircraft engine protection felts
- Aircraft passenger seats
- Fire proof aircraft interiors
- Radomes
- Drones
- Etc.
The Game changer
The best combination of high strength and high impact resistance of any material while being lightweight equals increased performance
- Weight reduction
- Increased safety (high impact resistance)
Resistant to fire and able to withstand extremely high temperatures: Increased safety
- High thermal insulation
- Resistant to fire (up to 1300 C)
- Low thermal expansion
- No smoke or ash dissipation
Unmatched ratio of electric insulation (dielectric) and lightness
- Substantial weight reduction
No galvanic corrosion based on 100% mineral composition
Much longer lifetime compared to other high-performance materials
- High fatigue performance
- High compatibility to any kind of resin
- High resistance to aggressive environments (salt water, UV rays, hydrocarbons, etc.)
- No sensitivity to humidity
Extremely positive environmental impact
- Requires significantly less energy to produce compared to other high-performance materials used today
- The electricity used in the production of Tenron is from 100% certified renewable sources from wind turbines
- Recyclable
- Life cycle assessment (see LCA) extremely interesting compared to other fibres
- Compliant with EU rules on chemical use (REACH)