The Next Evolution of Carbon Fiber.
Engineered for the Extremes.
Defined by Data.
We don’t just manufacture carbon fiber; we engineer performance-matched solutions for the world’s most demanding environments. From the crushing pressures of down-hole energy to the electromagnetic complexity of AI data centers, our specialised fibers are built where incumbents stop.
Beyond the Standard Spool
Incumbent manufacturers optimise for volume. We optimise for vulnerability. By re-engineering the chemical bond and integrating a digital thread, we solve the "Failure Frontier" in three critical sectors:
Our Partners
Supported By
.png){kind=logo}
.png){kind=logo}
.png){kind=logo}
Energy Infrastructure:
The Deep-Well Standard
High Pressure. High Temperature. Zero Failure.
Standard carbon fiber degrades in the corrosive, hydrogen-rich environments of down-hole tooling. Our Extreme-Environment Sizing creates a molecular-level seal that prevents resin-fiber interface delamination.
The Nandina Edge: 30% higher interlaminar shear strength (ILSS) in acidic conditions compared to aerospace-grade fiber.
UAV & UAS:
Mission-Critical Agility
Weight is only half the battle.
Modern drone airframes must withstand high-speed impacts and provide EMI shielding for sensitive flight controllers. We offer Hybrid Functionalized Fibers that integrate shielding and impact resistance directly into the tow.
The Nandina Edge: Integrated EMI shielding eliminates the need for heavy copper meshes, reducing airframe weight by up to 12%.
AI Data Centers:
High-Modulus Stability
Thermal Management at the Speed of Intelligence.
As AI racks grow denser, structural components must manage heat while maintaining absolute dimensional stability. Our high-thermal-conductivity fibers ensure that infrastructure stays rigid and cool under 24/7 thermal cycling.
The Nandina Edge: Ultra-low Coefficient of Thermal Expansion (CTE) specifically tuned for liquid-cooled rack architectures.
