The Future of Carbon Composites Manufacturing

An entirely new material and process for binder jet 3D printing of ultra-lightweight, mechanically strong carbon composites for high-end industrial applications.

The Future of Carbon Composites Manufacturing

An entirely new material and process for binder jet 3D printing of ultra-lightweight, mechanically strong carbon composites for high-end industrial applications.

Low-cost.
Light-weight.
High-performance.

Our innovative material and technology enables economic manufacturing of high-end carbon composites with an infinite number of commercial applications in many industries.

3D printed carbon composite chain link produced using our material and technology.
3D printed carbon composite car engine produced using our material and technology.

No tooling.
No jigs & fixtures.
No long lead times.

With our innovative material and technology, you can produce carbon composites at a fraction of conventional lead times without any tooling, fixtures or jigs.

No tooling.
No jigs & fixtures.
No long lead times.

With our innovative material and technology, you can produce carbon composites at a fraction of conventional lead times without any tooling, fixtures or jigs.

3D printed carbon composite car engine produced using our material and technology.

Fine features.
Design freedom.
Functional assemblies.

From high-end to non-structural applications, all can now be achieved by binder jet 3D printing of carbon composites using our innovative material and technology.

3D printed carbon composite parts produced using our material and technology.

Fine features.
Design freedom.
Functional assemblies.

From high-end to non-structural applications, all can now be achieved by binder jet 3D printing of carbon composites using our innovative material and technology.

3D printed carbon composite parts produced using our material and technology.

Oxyacetylene gas flame test on our binder jet 3D printed parts.

Thermally stable.
Mechanically strong.
Industrially viable.

High flame resistance of our binder jet 3D printed parts upon direct exposure to oxyacetylene gas flame with a flame temperature of 3480˚C under atmospheric conditions.

Thermally stable.
Mechanically strong.
Industrially viable.

High flame resistance of our binder jet 3D printed parts upon direct exposure to oxyacetylene gas flame with a flame temperature of 3480˚C under atmospheric conditions.