Kexcelled high-performance 3D printing materials helped Tongji University’s SuperPower Team advance to the 2026 RoboMaster National Finals. By utilizing the rigid, impact-resistant THE K5™ PLA and the flexible, wear-resistant THE K8™ TPU 95A for critical functional parts, the team achieved rapid iteration and successful customization, driving 3D printing from prototype verification to real arena combat.
Traditional FPV drones suffer from high repair costs and closed ecosystems. QingC solves this by pioneering 3D printing as the core of drone fabrication. Utilizing high-performance PPA-CF materials and the proprietary SKYLOCK snap-fit interface, QingC delivers a truly modular, plug-and-play FPV experience where components are instantly swappable.
This report compares the gyro spectra of QingC’s 3D-printed PLA-CF frame and a traditional carbon fiber frame. The QingC frame shows a lower mid-to-high frequency noise floor with only an isolated peak at 120–133 Hz, avoiding the 20–80 Hz broadband noise accumulation found in the carbon frame. Weighing $\approx$ 216 g with a top speed over 120 km/h, it validates the flight readiness of modular carbon-reinforced 3D printing.
Fortschrittliche Materialien für die additive Fertigung für die Zukunft der autonomen Mobilität Kexcelled, ein Entwickler fortschrittlicher Materialien für die additive...
Hintergrund des Projekts Bei einem Routine-Tauchgang im Fuxian-See erlitt ein PADI-Tauchlehrer des Zero Altitude Diving Center einen kritischen Ausrüstungsfehler: den...
Wenn „Extremer Wettbewerb“ auf „Agile Fertigung“ trifft In der Arena der RoboMaster University League (RMUC) wird der Erfolg nicht nur...