Ready
to use,
easy to
HEAT.
blf ink
GRAPHENE HEATING INK
Unleashing the potential of graphene
Engineered to provide unmatched thermal efficiency and adaptability, our graphene inks transform any surface into a highly efficient heating element.
Experience the future of heating systems with BLF INK, designed to deliver exceptional performance, reliability, and versatility. Whether you are looking to enhance your existing products or develop innovative new applications, our proprietary graphene inks open up a world of possibilities.
How does it work ? by joule effect
Our inks convert electrical energy into thermal energy, uniformly and efficiently heating the surface.
GRAPHENE HEATING INK FOR VERSATILE APPLICATIONS
From de-icing aircraft leading edges to heating car seats, BLF INK offers a versatile solution for a wide range of applications. This advanced heating ink can be seamlessly integrated into numerous industries, providing efficient, reliable, and innovative solutions.
AIRCRAFT
DE-ICING
Ice accumulation on airplane wings poses a significant safety risk, as it can alter the aerodynamics of the aircraft and compromise flight performance. Graphene-based heating inks offer an innovative solution for de-icing airplane wings, ensuring safety and efficiency during flight operations in icy conditions. This technology can be integrated into the wing structure, providing a reliable and efficient de-icing mechanism.
HEATING OFFSHORE PIPELINES
Offshore pipelines are often exposed to extreme environmental conditions, including very low temperatures that can cause the transported fluids to freeze. Using graphene-based heating inks helps maintain an optimal temperature in the pipelines, preventing freezing and ensuring a continuous flow of fluids.
Electric
Radiators
Electric radiators are a popular choice for heating residential and commercial spaces due to their convenience and efficiency. Integrating graphene-based heating inks into the heating elements of these radiators can significantly enhance their performance. It ensures rapid and uniform heating, contributing to a comfortable indoor environment.
Car seats
Heating
Heated car seats are a sought-after feature in modern vehicles, providing enhanced comfort and luxury to passengers, particularly in cold climates. Graphene-based heating inks can be integrated into the seat materials, offering a lighter solution for fast and consistent heating. This technology not only improves passenger comfort but also helps reducing carbon impact
GRAPHENE HEATING INK FOR VERSATILE APPLICATIONS
From de-icing aircraft leading edges to heating car seats, BLF INK offers a versatile solution for a wide range of applications. This advanced heating ink can be seamlessly integrated into numerous industries, providing efficient, reliable, and innovative solutions.
AIR CRAFT DE-ICING
Ice accumulation on airplane wings poses a significant safety risk, as it can alter the aerodynamics of the aircraft and compromise flight performance. Graphene-based heating inks offer an innovative solution for de-icing airplane wings, ensuring safety and efficiency during flight operations in icy conditions. This technology can be integrated into the wing structure, providing a reliable and efficient de-icing mechanism.
HEATING OFFSHORE PIPELINES
Offshore pipelines are often exposed to extreme environmental conditions, including very low temperatures that can cause the transported fluids to freeze. Using graphene-based heating inks helps maintain an optimal temperature in the pipelines, preventing freezing and ensuring a continuous flow of fluids.
ELECTRIC RADIATORS
Electric radiators are a popular choice for heating residential and commercial spaces due to their convenience and efficiency. Integrating graphene-based heating inks into the heating elements of these radiators can significantly enhance their performance. It ensures rapid and uniform heating, contributing to a comfortable indoor environment.
CAR SEATS HEATING
Heated car seats are a sought-after feature in modern vehicles, providing enhanced comfort and luxury to passengers, particularly in cold climates. Graphene-based heating inks can be integrated into the seat materials, offering a lighter solution for fast and consistent heating. This technology not only improves passenger comfort but also helps reducing carbon impact
BLF INK IN ACTION : THE OUTSTANDING PLANCHA
POWERED BY GRAPHENE HEATING INK
We took a standard consumer plancha and replaced the traditional heating resistance by a graphene coating. Not only we enhance the product performance but we also reduce its carbon footprint :
- 30% less energy consumed
- Reaches maximum temperature (250°C) one minute faster
- Direct surface heat transfer
BLF INK FOR HEATING : KEY BENEFITS
From de-icing aircraft leading edges to heating car seats, BLF INK offers a versatile solution for a wide range of applications. This advanced heating ink can be seamlessly integrated into numerous industries, providing efficient, reliable, and innovative solutions.
PERFECT
HOMOGENEITY
Our inks provide maximal heat transfer, ensuring efficient and uniform thermal distribution across the surface. They maintain consistent temperature while optimizing performance.
HIGH ADHESION AND ADAPTABILITY
Our inks are engineered to maintain exceptional adhesion while guaranteeing bending, folding and stretching.
OPTIMAL THERMAL STABILITY
Our formulations withstand extreme temperatures without degrading, ensuring reliable performance in even the harshest condition.
EASY TO
APPLY
Ready-to-use, and easy-to-apply, our inks are compatible with all conventional printing technics (spraying, screen-printing, roll to roll…).
FREQUENTLY ASKED QUESTIONS
BLF ink delivers high surface power performance up to 10 W / cm2
BLACKLEAF produces at the best market prices over 120 tons of graphene products per year, entirely Made in France
In case of specific expectations, we offer the possibility to custom our inks.
BLACKLEAF operates as a responsible manufacturer and thanks to our green production process, strives to bring its customers sustainable and innovative solutions.
