UAVOS has successfully implemented a core sintering manufacturing technology that allows the internal structure of composite rotor blades to be formed with high precision without the need for additional mechanical processing.
This advanced manufacturing approach ensures high geometric stability and structural reliability while simultaneously reducing overall production costs. The rotor blades are produced in-house using the company’s proprietary composite curing oven, allowing for strict internal quality control throughout the fabrication process. To verify these advancements, the blades underwent testing for overload resistance and environmental reliability at an independent European laboratory, confirming their durability for demanding unmanned rotorcraft operations.
Aliaksei Stratsilatau, Founder and CEO of UAVOS, said, “As an OEM, we continue to invest in advanced production technologies to deliver high-performance UAV components while maintaining competitive pricing and manufacturing efficiency.”
The construction of the blades utilizes carbon multi-cross-layer technology and a design based on the NACA 23012 airfoil. This specific airfoil design provides strong aerodynamic efficiency and improves performance when the aircraft is operating under high-load conditions. Furthermore, the engineering team integrated a 10° twist into the blade design to optimize flight performance. For rotorcraft, this twist is a critical factor in reducing fuel consumption and extending flight endurance.
The rotor blades have a proven service life of 3,000 hours, reflecting the company’s focus on long-term operational viability for UAV components.
