Our Technology

Generating heat for industrial processes is incredibly energy intensive and is responsible for ~80% of all energy consumption in the chemical industry. With increasing pressure to reduce greenhouse gas emissions and fossil fuel reliance, companies are searching to transition from conventional fired processes to new, more efficient technologies.

Carbon materials have unique thermal and electrical properties that allow them to act as resistors and generate large amounts of heat upon the application of a current. The carbon materials designed by RebornC can reach temperatures as high as 800 °C (~1500 °F) after application of 30 W of power, which is similar to conventional lightbulbs!

Our Technology

  • Precursors

    Our technology begins with polyolefin precursors, even including plastic waste streams

  • Processing

    Those precursors are then processed into filaments for 3D-printing, which allows us to fabricate materials in any customer-specified geometry.

  • 3D-Printed Carbon

    The 3D-printed materials are converted to carbon structures with controlled geometries through a proprietary treatment process.

  • Electrified Heating

    The unique properties of these materials make them excellent candidates for electrified heating processes to reduce energy consumption and greenhouse gas emissions.

Carbon materials

for electrified heating

Generating heat for industrial processes is incredibly energy intensive and is responsible for ~80% of all energy consumption in the chemical industry. With increasing pressure to reduce greenhouse gas emissions and fossil fuel consumption, companies are searching to transition from conventional fired processes to new, more efficient technologies.

  • Carbon materials have unique thermal and electrical properties that allow them to act as resistors and generate large amounts of heat upon the application of a current. The carbon materials designed by RebornC can reach temperatures as high as 800 °C (~1500 °F) after application of 30 W of power, which is similar to conventional lightbulbs!

  • The carbon materials fabricated by RebornC achieve the same temperatures as conventional materials but at a fraction, or order of magnitude less of the power consumption. This provides excellent opportunities for energy savings and reduced greenhouse gas emissions.

  • The ability to fabricate these carbon materials through 3D-printing enables RebornC to tailor their product exactly to the customer’s specification regardless of complexity.

  • These characteristics position RebornC to lead the decarbonization transition for countless industrial processes including alternative fuel production, carbon dioxide removal, and general manufacturing processes.

The RebornC technology provides customizable solutions for developing electrified heating devices for a number of applications. These devices have potential to provide excellent energy savings at very low production costs and reduced carbon footprints compared to conventional materials.