MetaSafe Technology

Revolutionary Dissipative Metamaterials for BEV Battery Protection

Our technology introduces a new class of dissipative metamaterials engineered for lightweight, high‑safety structural components in BEV battery enclosures. Unlike traditional crash structures, which inherently trade stiffness for energy absorption, our metamaterial architecture achieves both through controlled sequential deformation.

Key Benefits

Significant Weight Reduction

Without compromising crash performance, enabling increased driving range and reduced CO₂ footprint.

Tuneable, High-Energy Absorption

Compact form factor delivers superior protection in minimal space.

Manufacturing Compatibility

Works with industrial manufacturing routes:

• Stamping
• Joining
• Extrusion
• Additive manufacturing

Cost-Neutral Integration

Seamlessly integrates into existing battery‑box designs without premium costs.

Material Flexibility

Compatible with multiple material systems:

• Steel
• Aluminium
• Polymers
• Composites

Commercial Validation

Our aim is to validate the problem–solution fit with Tier‑1 battery‑enclosure suppliers and OEM engineering teams, quantify the achievable weight and cost benefits, and identify the most viable manufacturing pathways for large‑scale production.

The outcome will determine whether the technology can serve as a commercially viable lightweighting solution for next‑generation BEV platforms.

Technical Specifications

• 100x stiffer than conventional materials
• 20x more dissipative than current battery protection solutions
• 30-60% weight reduction compared to traditional crash cans
• Controlled sequential deformation for predictable performance
• Repeatable force plateau during impact events

Ready for Industry Integration

MetaSafe technology is designed from the ground up for real-world automotive applications, with a focus on scalability, cost-effectiveness, and compatibility with existing manufacturing infrastructure.