CRP Technology is redefining mission-critical UAV structures with advanced additive manufacturing that meets the escalating demands of both civil and tactical platforms.
As unmanned systems increasingly operate in harsher, more complex environments, airframes and components must deliver lightweight efficiency, structural durability, and consistent performance under dynamic loads, vibration, and extreme temperatures.
Windform composite materials address these challenges head-on. Powder-based 3D printing naturally supports complex internal geometries, enabling lightweight structures with exceptional strength-to-weight ratios. Reduced part counts, precision surface finishes, and tooling-free production streamline development, making the approach ideal for agile, low-volume manufacturing cycles. The result is improved endurance, greater range, and enhanced autonomy across UAV classes.
Mission-grade Windform formulations resist chemicals, UV, water, impacts, and temperature extremes. Fire-retardant, dielectric, and conductive variants enable safe insulation or EMI shielding, allowing sensors, electronics, batteries, and transmitters to be integrated directly into printed components, even in compact or high-interference environments. Few manufacturing routes offer this level of clean system integration for high-stakes UAV architectures.
CRP Technology supports aerospace-level assurance with EN 9100/AS9100D, ISO 14001, NASA-STD-6030, and material qualifications including low outgassing, VUV resistance, UL 94, FAR 25.853, CTI 600, and ASTM electrical conductivity ratings.
Trusted by leaders such as Parrot, Flying-Cam, Hexadrone, Hoverfly, and Leonardo, Windform-based additive manufacturing delivers proven performance for UAVs, UGVs, defense robotics, ISR platforms, and rapid-response mission systems.
