Hybrid Composites
Engineered composites that combine nano-fillers, 2D materials and polymers for high strength, low weight and electrical functionality.
Hybrid composites integrate tailored nano-fillers and 2D layers into polymer matrices to deliver mechanical reinforcement, thermal/electrical conductivity, and multifunctional surfaces. We formulate resin systems and printable inks for structural panels, interior components and printed circuit composites. Production options range from prepreg and layup to printed composite sheets for rapid prototyping and series manufacture. Surface treatments and interface engineering ensure load transfer, fatigue resistance and manufacturability for automotive, aerospace and sporting goods applications.
Key features
Key features
- High strength-to-weight ratio
- Tunable electrical/thermal conductivity
- Multiple processing routes: layup, prepreg, printing
- Interface engineering for fatigue resistance
Precise real-world uses
- Lightweight automotive and aircraft body panels
- Structural sports equipment (rackets, helmets)
- Printed circuit composites and EMI shielding parts
Technical highlights
- Density reductions: 20–50% vs metal equivalents (application dependent)
- Tailorable thermal conductivity: ranges from insulating to >10 W/m·K
- Proven manufacturing compatibility with automotive and aerospace process standards
Download hybrid composites brief (materials, layup and processing guidance).
Hybrid Composites (Nano + 2D + Polymer) - Material Applications
Aircraft Panels
Lighter, stronger aerospace parts.
EV Frames
Lightweight structures for better range
Construction Panels
Durable, impact-resistant walls.
Wind Turbines
Strong yet flexible blade structures.
Solar Mounts
Lightweight, stable solar supports.
Protective Gear
High-resilience helmets & armor.
Machine Casings
Durable housings for heavy use.
Automotive Chassis
Fuel-efficient vehicle frames
Sports Equipment
Strong, light racquets & bikes.