We successfully developed and manufactured a lightweight carbon fiber fixed bracket for an unmanned aerial vehicle (UAV) structural application, addressing the critical challenge of edge delamination and cracking commonly encountered in thin-walled composite machining. Through proprietary process optimization, we achieved crack-free production with consistent structural integrity.
| Project Name | UAV Carbon Fiber Fixed Bracket |
| Key Metric | Specification |
| Dimensional Tolerance | ±0.05mm (critical mounting points) |
| Material | Carbon fiber composite (multi-layer prepreg) |
| Wall Thickness | 1.5mm - 3.0mm (lightweight design) |
| Machining Process | CNC milling + assembly |
| Defect Rate | Zero delamination/cracking (validated) |
Each bracket underwent comprehensive inspection using CMM measurement for dimensional accuracy (critical mounting points held to ±0.05mm), supplemented by microscopic surface inspection to verify zero delamination or micro-cracking at all cut edges and drilled holes.
This solution demonstrates our expertise in composite material machining for lightweight aerospace structures, ideal for:
✓ UAV airframes and structural mounts ✓ Drone payload brackets ✓ Lightweight automotive composite components
Ready to transform your CAD file into a custom part? Upload your design to get a free, precise quote.
Get Your Instant Quote