Sleek eVTOL aircraft in flight with carbon fiber components highlighted

Composites for Flight

Manufacturing lightweight, high-performance carbon fiber structures for the next generation of Aerospace, Space, and Advanced Air Mobility.

Contact Our Aerospace Team

Built for Aerospace & Defense

For flight-critical applications, every gram matters. Achieve your weight and performance targets with a partner who understands the rigors of aerospace manufacturing. We provide flight-ready carbon fiber components for the aerospace, space, and Advanced Air Mobility (AAM) industries. Our AS9100-compliant processes, full material traceability, and expertise in lightweight structural design make us an ideal partner for UAVs, eVTOLs, satellites, and aircraft interior programs.

AS9100 Compliant QMS

Our Quality Management System ensures rigorous process control, configuration management, and documentation.

Full Material Traceability

We provide complete traceability from raw material batch to finished part, a non-negotiable for flight hardware.

ITAR Registered

We are registered with the DDTC to handle and manufacture defense articles covered under the International Traffic in Arms Regulations.

Rigorous Inspection

Every part undergoes a stringent inspection process, including CMM and NDI, with full reporting.

Aerospace & AAM Applications

Close-up of a sleek carbon fiber drone body

UAV & Drone Airframes

Monocoque bodies, wings, and motor mounts that maximize flight time and payload capacity for unmanned aerial vehicles.

eVTOL aircraft propeller blade made from carbon fiber

eVTOL & AAM Structures

Propeller ducts, fuselage panels, and primary structures vital for the future of urban air mobility platforms.

Luxurious carbon fiber aircraft seat shell with FST compliance

Aircraft & Bizjet Interiors

Lightweight seatbacks, galleys, and bulkheads that reduce aircraft weight without compromising luxury or safety, ensuring FST compliance.

Advanced carbon fiber panel for space satellite applications

Space & Satellite Components

Ultra-stable optical benches, antenna reflectors, and structural panels with near-zero Coefficient of Thermal Expansion for critical space missions.

Case Study: UAV Wing Structure

Kinetic Composites demonstrates engineering excellence by solving complex weight and performance challenges in aerospace.

Objective:

Reduce the weight and part count of a multi-piece aluminum UAV wing while enhancing structural integrity.

Solution:

Our engineers designed a single-piece, co-cured carbon fiber wing with integrated spars. The custom tooling was precisely engineered to match the part's Coefficient of Thermal Expansion for optimal autoclave curing, ensuring dimensional stability and performance.

Outcome:

  • Achieved a 35% weight reduction over the previous aluminum design.
  • Eliminated 12 fasteners, simplifying assembly and reducing potential failure points.
  • Increased torsional stiffness by 50%, leading to significantly better flight stability and control.
Sleek, finished carbon fiber UAV wing, showcasing advanced composite design
The completed one-piece carbon fiber UAV wing engineered for superior performance.

Submit Your Aerospace RFQ

Our team is ready to support your program, from initial design trade studies to full-rate production. We deliver traceable materials, rigorous quality control, and documentation aligned with stringent aerospace requirements. Contact us to discuss your specific requirements.

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