Lightweight Systems,
built for a Sustainable Future.
Advanced composites and digital engineering to reduce mass, save energy, and extend service life.
Aerospace-grade Composites
High strength–to–weight, fatigue resistance, and precision manufacturing for next-gen airframes and components.
Mobility & EV Platforms
Lighter structures = longer range and lower energy per km. Integrate features to cut parts and assembly.
Why Lightweight
Less mass. More performance. Lower lifecycle impact.
Save Energy
Use less fuel and electricity with lighter parts.
Strong & Durable
High strength without bulk; resists wear and fatigue.
Lower CO₂
Reduced energy use means a smaller footprint across the lifecycle.
Fewer Parts
One-step molding integrates features and cuts assembly time.
Design Freedom
Create forms not feasible with traditional materials.
Premium Finish
Clean surfaces that elevate product feel and value.
EV Wheeler Load Body
- Ultralightweight, Extra payload, less footprint. ~80–150 kg target. Strong, modular, road-tough.
- Up to ~45–65% lighter than steel builds
- EV takeaway: +≈100 kg payload or ~8–12% range headroom (duty-cycle dependent)
- Fibre-composite — RoHS & REACH safe
- Prototype: 1–2 weeks
"Engineering with Circularity in Mind"
We combine advanced composites with digital engineering to deliver lighter, more efficient systems for aerospace, mobility, and renewable energy.