Engineering
Ballistic protection
Advanced composite armor solutions extensively tested to defeat high-velocity projectiles and fragmentation without compromising mobility.
How we approach Ballistic protection
Survivability requires materials that disperse kinetic energy instantly. We engineer our ballistic protection using a matrix of advanced ceramics and polyethylene to defeat multi-hit threats while dramatically reducing spalling and backface deformation.
Our armor systems undergo rigorous third-party threat level certification. By utilizing ultra-lightweight strike faces and ergonomic multicurve plate profiles, we decrease operator fatigue while ensuring critical organ coverage against both sharp penetrators and high momentum impacts.
The engineering philosophy prioritized modular scalability across the entire platform. Operators can quickly transition between lightweight reconnaissance configurations and heavily armored kinetic assault setups simply by structurally augmenting the core base carrier with additional certified ballistic panels.
Certified Threat Defeat Capabilities
Kinetic energy dissipation is fundamental to internal injury prevention. Our plates maximize energy transfer away from the body.
- Multicurve ceramic and composite plates designed to conform to the operator's torso.
- Advanced spall-containment coatings to minimize secondary fragmentation casualties.
- Scalable protection levels accommodating modular soft armor and hard plate inserts.
Talk with engineers who own the work
Request a technical pass on Ballistic protection: constraints, risks, and a practical next step with clear assumptions.