Dans la fabrication moderne de drones, le joint du train d'atterrissage, bien que de petite taille, est un élément porteur essentiel. It absorbs impact during takeoff and landing while connecting the fuselage to the landing system.
Avec plus 15 years of CNC machining process experience, we have seen numerous failure cases caused by insufficient strength, as well as folding mechanism issues resulting from tolerance deviations.
Drone landing gear joints are typically machined from 7075-T6 or 6061 aluminum alloys, requiring a balance between maximum strength and minimum weight.
Dans cet article, we provide an in-depth analysis of four key areas:
- Sélection des matériaux
- 5-axis machining strategies
- Deformation control of thin-walled structures
- Traitement de surface
Sélection des matériaux: Controlling Quality from the Source
Material selection is often underestimated, yet it directly determines the final product performance.
When machining 7075-T6 aluminum, many manufacturers encounter issues such as surface mottling or black spots after anodizing. These defects are not merely cosmetic—they indicate non-uniform internal microstructure.
À Rapidefficient, we address this at the source:
- We collaborate directly with certified material suppliers
- High-purity aluminum stock is custom-ordered
- Trial anodizing is conducted before full production
This ensures consistent grain structure and stable anodizing performance across batches.
Such strict material control forms the foundation for landing gear joints capable of withstanding thousands of impact cycles.
Thin-Walled Structure Machining: Contrôler la déformation
To reduce weight and increase flight endurance, landing gear joints often feature complex thin-walled rib structures.
The main challenge lies in stress-release deformation.
Using conventional machining methods, parts may deform by more than 0.05 MM after unclamping—leading to assembly failure.
Our Process Strategy
We implement a controlled process:
- Usinage grossier
- Natural aging or stress-relief treatment
- Finish machining
En plus, our engineering team provides DFM (Conception pour la fabricabilité) feedback, y compris:
- Optimizing internal fillet radii
- Reducing uneven cutting forces
- Improving structural stability
This allows us to maintain tight tolerances within ±0.01 mm.
5-Axis Machining Strategy: Précision et efficacité
Complex geometries such as angled surfaces and irregular holes present significant challenges.
Traditional 3-axis machining requires multiple setups, with each setup introducing cumulative errors of approximately 0.02 MM.
Advanced Machining Approach
By utilizing 3+2 positioning and full 5-axis machining, we can:
- Complete multi-surface machining in a single setup
- Improve efficiency by over 15%
- Ensure coaxiality between mounting holes and pivot holes
For customers, this translates into:
- Smoother folding mechanisms
- Improved durability
- Longer product lifecycle
Our production capability includes:
- 20+ CNC machining centers
- 10+ turn-mill machines
This supports both prototyping and high-volume production.
Tooling Strategy: Maximizing Surface Quality
Tool selection plays a critical role in machining high-strength aluminum alloys.
We avoid standard HSS tools and instead use:
- High-hardness coated carbide tools
- Tools optimized specifically for aluminum machining
Avantages
- Excellent chip evacuation
- Reduced built-up edge formation
- Surface finish up to Rampe 0.8 ou mieux
Optimisation des processus
Our engineers continuously optimize:
- Vitesse d'avance
- Spindle speed
- Toolpath strategies
The goal is to:
- Reduce cycle time
- Improve yield rate
- Maintain consistent quality
Contrôle de qualité: Process-Based Assurance
Final inspection alone is not sufficient for precision components.
À Rapidefficient, quality control is integrated throughout the entire process.
IPQC System
- First-piece inspection every 2 heures
- Real-time monitoring of critical dimensions
Équipement d'inspection
- Cmm (Machine de mesure de coordonnées)
- Cylindricity testers
Vérification du matériel
For critical or overseas projects, nous utilisons:
- Handheld XRF analyzers
This ensures:
- Accurate material composition
- Elimination of material mix-up risks
Traitement de surface: Managing Critical Tolerances
Surface treatment is the final but crucial step.
Landing gear joints typically require hard anodizing to improve wear resistance.
Key Challenge
Hard anodizing causes dimensional growth of:
- 0.008–0,012mm
Failure to compensate for this often results in assembly issues.
Notre solution
- Precise anodizing allowance planning
- Collaboration with specialized surface treatment partners
- Controlled finishing processes
Protection des surfaces
To prevent damage such as scratches or dents:
- Custom blister trays are used for transportation
- Strict handling procedures are implemented
This ensures parts remain in optimal condition upon delivery.
Flexible Production for Prototyping and Mass Production
MOQ is a common challenge for startups and R&D teams.
Notre approche
À Rapidefficient, we offer:
- No minimum order quantity
- Dedicated rapid prototyping team
- Fast turnaround capability
Délai de mise en œuvre
- Urgent samples: dans 24 heures
- Standard prototypes: 3–7 jours
This flexible model supports:
- Early-stage development
- Small-batch production
- Large-scale manufacturing
Transparent Pricing Strategy
Pricing is based on:
- Part complexity
- Type de matériau
- Tolerance requirements
Pricing Models
- Hourly machining rate
- Per-part quotation
As a direct manufacturer, we:
- Eliminate intermediary costs
- Provide cost-efficient solutions
DFM Value
Our DFM reports help clients:
- Optimize design
- Reduce machining cost
- Improve manufacturability
Conclusion
CNC machining is not just about production—it is about mastering:
- Material behavior
- Precision control
- Optimisation des processus
À Rapidefficient, we focus on delivering reliable, high-performance components through engineering-driven solutions.
We provide:
- NDA protection
- Rapid response (dans 24 heures)
- Full responsibility for quality issues
If you are looking for a trusted CNC machining partner for drone components, we are ready to support your project—from prototype to mass production.
