
OUR MATERIALS, OUR EDGE.
EXTREMIS SYSTEMS’ COMPOSITE IS 2.6X STRONGER
the forefront of protective innovation
Extremis armor leverages unconventional materials and engineering to deliver unparalleled performance.
By integrating our proprietary polymer, NEOZANT™, with high-strength carbon fiber and, in select configurations, advanced ceramics, we’ve created a composite that redefines the capabilities of personal protective equipment and vehicle armor. Unlike traditional armor that passively absorbs impact, our technology actively manages and disperses energy, preserving structural integrity under extreme conditions and providing superior protection in high-threat environments.
REDEFINING PROTECTION STANDARDS
Key Advantages
Exceptional Strength-to-Weight Ratio: Our carbon/polymer composite is 260% stronger than equivalent weights of polyethylene and aramid, as measured by NIJ 0106.01 backface deformation metrics. This allows for lighter, more agile armor without compromising on protection.
Broad Temperature Resilience: While conventional polyethylene softens and loses integrity at around 130°F, our Extremis composite maintains full ballistic performance across a remarkable temperature range of –100°F to 250°F, ensuring reliability in the harshest climates, from arctic cold to desert heat.
Long-Term Durability: Unlike hygroscopic aramids, which absorb moisture and degrade over time, our composite is chemically stable and non-hygroscopic. It retains its full strength and protective capabilities even after prolonged exposure to harsh conditions, including saltwater immersion, as validated by DEA/FBI Protocol 2024 testing.
Versatile Applications: Engineered for adaptability, our armor excels in diverse scenarios, from tactical personal protection to heavy-duty vehicle shielding, offering consistent performance across dynamic operational demands.
Extremis’ breakthrough technology pushes the boundaries of what armor can achieve, offering unmatched strength, environmental resilience, and longevity. Whether safeguarding individuals in high-risk missions or fortifying vehicles in combat zones, our armor delivers peace of mind through cutting-edge science and engineering.
The future of protection with armor designed to perform when it matters most.
BALLISTIC ENERGY MANAGEMENT
INWARD VS. OUTWARD DISPLACEMENT
TRADITIONAL ARAMIDS: INWARD ENERGY ABSORPTION
Materials like Kevlar®, Twaron®, and Dyneema® rely on inward displacement to absorb a projectile’s kinetic energy. Through yarn slippage, fiber stretching, and buckling, these fabrics deform internally to catch and slow threats, minimizing penetration.
EXTREMIS SYSTEMS: RAPID OUTWARD ENERGY DISSIPATION
Extremis Systems revolutionizes ballistic protection with rapid outward energy dissipation. Our NEOZANT™ technology disperses kinetic energy laterally—forward, sideways, and backward—reducing localized stress and enhancing resistance to penetration.
Why Outward Dissipation MATTERS?
Minimized Damage: Lowers backface deformation (BFD) and preserves structural integrity.
Multi-Hit Resilience: Distributes energy across a wider area for sustained performance.
Faster Energy Shedding: Accelerates stress wave propagation to prevent material failure.
FAST FACTS
Outward Dissipation: Energy spreads laterally, unlike inward-absorbing aramids.
Strain-Wave Speed: Faster energy propagation boosts ballistic performance.
Ply Interaction: Optimized interlayer friction in laminates enhances energy dispersion.