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ADVANCED MATERIAL SCIENCE

Revolutionary Materials

Our breakthrough materials are at the core of our mission. We turn waste into high-performance, mission-ready components, creating a new standard for sustainability in aerospace that meets modern environmental laws.

Paper Composite
PAPER COMPOSITE

Paper Composite

Engineered paper frames using either stacked paper strips with epoxy resin or epoxy-infused paper pulp molding.

Key Properties

  • Extremely lightweight, enhancing flight time and maneuverability.
  • Base material is fully biodegradable (excluding resin).
  • Excellent natural shock and vibration absorption properties.

Best Use Cases

Civilian surveillance
Agricultural monitoring
Training models
Disposable & single-use missions

Sustainability Note

This material is made from 100% recycled paper waste, significantly reducing landfill burden and promoting a circular economy.

Flax Composite
FLAX COMPOSITE

Flax Composite

Natural flax fibers combined with epoxy resin creating a strong, lightweight bio-composite material.

Key Properties

  • High strength-to-weight ratio, comparable to some composites.
  • Superior natural vibration damping for stable flights.
  • Made from renewable plant-based resources.

Best Use Cases

Professional surveillance
Extended flight missions
Harsh environment operations
Cinematography & photography

Sustainability Note

By using renewable flax fibers, this composite reduces the carbon footprint of a drone frame by up to 40% compared to conventional materials.

Recycled Aluminum
RECYCLED ALUMINUM

Recycled Aluminum

Recycled aluminum foil strips layered with epoxy or precision-cast aluminum frames from recycled metal.

Key Properties

  • Excellent electromagnetic (EM) shielding for sensitive electronics.
  • Superior durability and impact resistance.
  • Efficiently dissipates heat from motors and electronics.

Best Use Cases

Military & tactical operations
High-heat environments (e.g., industrial inspection)
Long-range communication missions
Heavy payload transport

Sustainability Note

This material utilizes 95% recycled aluminum content, saving approximately 95% of the energy required to produce new aluminum.

3D Printed PET
3D PRINTED-PET

3D Printed PET

Annealed PET filament frames manufactured through precision 3D printing for complex geometries.

Key Properties

  • Enables complex internal structures and integrated features.
  • Allows for rapid prototyping and design iteration.
  • Highly customizable for specific mission or payload requirements.

Best Use Cases

Specialized missions
Custom payloads
Research & development platforms
Rapidly deployable systems

Sustainability Note

Our PET filament is sourced from recycled plastic bottles, directly contributing to the reduction of plastic pollution in oceans and landfills.

Mixed Materials
MIXED MATERIALS

Mixed Materials

A hybrid approach using multiple recycled materials to optimize performance, cost, and durability for specific components.

Key Properties

  • Optimal performance by using the right material for each part.
  • Balances cost, weight, and strength effectively.
  • Showcases the versatility of multiple recycled material streams.

Best Use Cases

Advanced prototypes
Demonstration models
Custom-built specialized drones
Flagship models

Sustainability Note

Maximizes the use of various recycled materials in a single product, creating a powerful example of a circular economy in action.