Aerospace Applications 

materials of a new universe.

The global aerospace industry is facing increasingly complex and demanding government requirements for compliance with cost efficiency, safety and environmental regulations driving technology innovations and advancements. Carbon materials have become highly popular over the recent years as the material to address some of these issues.


Mechanical Reinforcement

Durable. Tougher. Stronger. Lighter.

Go where no one has gone before!

In the aerospace industry every gram of weight is directly linked to an enormous amount of money. Maximizing the mechanical properties of structures allows the industry to reduce the amount of material to be carried, thus, results in significant cost savings.


CNT Resin

The CarboForce polymer system uses carbon nanotubes (CNT) to reinforce Carbon fiber composites. Even very small concentration improve various mechanical properties widely.


Instant Cozyness

Low voltage. Sunlike warmth.

Embrace the natural warmth of infrared, radiation heating.

Directly applied on interior elements our electrical heating solution doesn’t waste it’s energy to heat up anything but where it counts. Passenger are directly warmed up through the most natural warmth…radiating heat. Even at12V. In seconds.


Conductive Coating

Carbo e-Therm is easily dispersible and applicable to any surface geometry. The heat distribution hereby is most homogeneously without any type of hotspots.


De-Icing & Anti-Icing

Fast. Efficient. Melting. Eco-friendly. 

Airplane parts icing up in cold environment are a severe threat to operational safety. Also down time of planes caused by icing is a significant economical issue for airlines and operator.

 FutureCarbon’s electrical heating solutions is a highly effective method for snow or frost removal and also prevent parts from icing right from the beginning. Applied close to the to be protected part’s surface de-icing even of thicker layers of ice is achieved in e.g. 10-15 minutes…chemical free…. 


Conductive Coating

Carbo e-Therm is easily dispersible, applicable to any surface geometry. The heat distribution is most homogeneously.


 

Electrostatic Discharge Prevention

Aircraft structures are submitted to and exposed to electromagnetic radiation which may cause a safety issue due to electrostatic electricity building up and undesired discharge of the load.

Due to the conductive nature of carbon nanotubes electrostatic discharges can be prevented. Safety assured.


CNT Resin

The CarboForce polymer system uses carbon nanotubes (CNT) to reinforce carbon fiber composites. While structures are mechanically reinforced the associated conductivity allows electrical discharge prevention.

Watery CNT Dispersion

CarboDis features a concentration of 1% to 4% carbon nanotubes in a aqueous dispersion. Seamlessly added to the carrier system mechanical properties are boosted. Simple. Safe. Stable.