Advanced Composites for Aerospace, Defence & Unmanned Innovation
ATL Composites provides high-performance materials for aerospace, defence, and advanced unmanned systems — where weight, precision, and structural integrity define mission success. Our composite technologies deliver the lightweight strength, fatigue resistance, and dimensional stability needed for UAVs, drones, rockets, propulsion systems, and manned platforms.
ATL’s aerospace-ready portfolio includes KINETIX® epoxy resins, Techniglue® structural adhesives, DuFLEX® engineered panels, Coosa® high-density boards, and DIAB® foam cores. These systems are trusted for payload enclosures, fuselage structures, fairings, interior panels, antenna housings, and propulsion components across prototype and production environments.
Developed and tested by ATL’s in-house chemists and engineers, our materials are optimised for vacuum infusion, RTM, filament winding, and compression moulding — enabling consistent processing, tight tolerances, and repeatable performance.
Composite Innovation for Aerospace & Defence Applications
ATL composite systems enable the manufacture of structural skins, internal components, and precision enclosures with:
Lightweight strength and stiffness for efficient flight
Fatigue and impact resistance under repeated dynamic loads
Thermal stability for propulsion and high-temperature environments
Dimensional accuracy required for tight aerodynamic envelopes
Reliable processing across both prototype and high-rate production
From drone platforms to hypersonic systems, ATL supports next-generation aerospace builds with materials engineered for performance, reliability, and manufacturing efficiency.
Aerospace Material Systems
KINETIX® epoxies deliver excellent fibre wet-out, controlled exotherm and high mechanical performance for aerospace components. Ideal for UAV fuselages, structural skins, payload housings and rocket assemblies, these systems provide dimensional stability and predictable processing across vacuum infusion, RTM and filament winding processes.
Techniglue® provides high-strength bonding of composite laminates, cores, and metals for aerospace assemblies. With superior gap-filling capability, sag resistance, and long-term thermal and mechanical durability, it is trusted for drone structures, fairing bonding, bulkheads, and payload enclosure integration.
Duratec® in-mould coatings produce a high-gloss, mould-finished surface directly from the tool, reducing post-processing requirements and supporting consistent part geometry. Designed for radomes, fairings, interior panels and unmanned system enclosures, these coatings enhance surface durability, UV resistance and cosmetic consistency.
DuFLEX® panels combine epoxy skins with structural cores to deliver lightweight, high-strength, and dimensionally controlled components. Used in UAV wings, aerospace cabinetry, satellite enclosures, and drone bays, DuFLEX® supports rapid fabrication and precise weight control — critical for flight performance.
Coosa® boards provide extreme stiffness, water resistance, and impact durability for avionics housings, UAV chassis, internal bracing, and ground support equipment. Their fibreglass-reinforced polyurethane construction offers long service life with zero rot, zero corrosion, and excellent machinability.
DIAB® Divinycell® cores deliver outstanding stiffness-to-weight, vibration dampening, and thermal insulation for aerospace sandwich structures. Ideal for antenna housings, drone fuselages, interior panels, and rocket fairings, these closed-cell cores pair seamlessly with ATL epoxy systems for fatigue-resistant, lightweight components.
ATL Composites delivers specialised epoxy resins, adhesives, engineered panels, and structural cores designed for aerospace, defence, and unmanned platforms — enabling lighter, stronger, and more reliable flight-critical structures.
