We specialize in high-tolerance (±0.005mm) CNC machining and surface finishing for UAV components. Using aviation-grade aluminum, titanium and stainless steel, we manufacture custom parts that deliver superior strength, corrosion resistance and flight stability.
From motor mounts to structural frames, each component undergoes rigorous quality control to meet AS9100 aerospace standards.
We specialize in high-precision CNC machining and professional surface treatment for drone metal components, serving as a professional precision UAV components manufacturer. Utilizing advanced 5-axis machining centers and strict process controls, we provide integrated precision manufacturing solutions for custom drone parts made from materials ranging from aluminum and titanium to stainless steel. We ensure every component meets aviation application standards in dimensional accuracy, mechanical strength, and weather resistance.
Equipment: 5-axis simultaneous machining centers, precision mill-turn centers.
Accuracy: Standard ±0.005mm, with key features achievable up to ±0.002mm. This ±0.005mm tolerance is fundamental for the stable flight of high-end drones.
Advantage: Complex structures are machined in a single setup, ensuring geometric and positional tolerances, specifically designed for the efficient production of 5-axis CNC drone parts.
Machine Type: DMG MORI, MAZAK
Work Envelope: Up to 1200mm x 800mm x 600mm
Tool Magazine Capacity: 120+ tools
Mastercam
Siemens NX
Autodesk Fusion 360
STEP
IGES
Parasolid
Applicability: Shafts, sleeves, and rotary body components.
Accuracy: Roundness ≤0.003mm, surface roughness Ra ≤0.4μm.
Capacity: Precision turning for diameters from 3-150mm and lengths up to 500mm.
High Precision: Citizen Cincom L32
Heavy Duty: Haas ST-30Y
3-jaw chuck: 80-250mm
Collet system: 16-65mm
Thread Machining: Precision internal and external threads (Metric, Imperial, Unified), with 100% Go/No-Go gauge inspection.
Deep Hole Drilling: High-precision holes with diameters of 1-10mm and a depth-to-diameter ratio ≤15:1.
Thin-Wall Machining: Structural parts with wall thickness ≥0.5mm, with deformation controlled to <0.05mm.
We specialize in the CNC Machining of various aviation materials to ensure optimal performance for drone components.
6061-T6: Excellent overall properties, used for fuselage frames and mounting plates. This is the most common material for aluminum drone parts.
7075-T6: Ultra-high strength, used for motor mounts and high-load structural parts.
5052-H32: Good formability, used for enclosures and protective covers.
| Property | 6061-T6 | 7075-T6 | 5052-H32 |
|---|---|---|---|
| Tensile Strength | 310 MPa | 570 MPa | 230 MPa |
| Yield Strength | 276 MPa | 503 MPa | 193 MPa |
| Density | 2.70 g/cm³ | 2.81 g/cm³ | 2.68 g/cm³ |
6061-T6: Solution heat treated at 530°C, then artificially aged
7075-T6: Solution heat treated at 480°C, then artificially aged
5052-H32: Strain hardened and stabilized
TC4 Titanium Alloy: Extremely high strength-to-weight ratio, used for critical load-bearing components.
Stainless Steel 304/316: Excellent corrosion resistance, used for components in marine environments.
Pre-hardened Tool Steel: Used for manufacturing fixtures, jigs, and inspection gauges.
Each material batch is accompanied by original mill test reports (chemical composition, mechanical properties).
Pre-storage ultrasonic flaw detection ensures internal material integrity.
Pre-stabilization heat treatment is applied to sensitive materials to minimize machining deformation.
We offer comprehensive surface finishing for drone parts to enhance corrosion resistance, wear resistance, and appearance.
Standard Anodizing: 8-12μm, basic corrosion protection, with black/natural color options.
Hard Anodizing: 25-50μm, surface hardness HV≥400, wear-resistant, suitable for high-contact parts like motor mounts.
Color Anodizing: Custom colors like red/blue/gold for part identification and classification.
Temperature: 18-22°C for standard, 0-5°C for hard anodizing
Current Density: 1.5-2.0 A/dm²
Bath Composition: Sulfuric acid based with additives
Salt spray test: 72-1000+ hours depending on specification
Coating thickness measurement: Eddy current method
Adhesion test: Tape test per ASTM D3359
Passivation: For stainless steel, enhances corrosion resistance, compliant with ASTM A967.
Conductive Oxidation: For aluminum alloys, coating thickness 0.5-1μm, maintains conductivity.
Electroless Nickel Plating: Uniform coating, high hardness, excellent wear resistance.
Precision Sandblasting: Uniform matte or glossy finish, options from 80-220 mesh.
Mechanical Polishing: Mirror or brushed finish, surface roughness Ra ≤0.1μm.
Laser Marking: Permanent identification, supports QR code traceability.
Dimensional Inspection: CMM (accuracy ±0.001mm), vision measuring systems, profilometers.
Surface Inspection: Roughness testers, coating thickness gauges, color difference meters.
Material Verification: Spectrometers, hardness testers.
CMM Model: Hexagon Global S 07.10.07
Measurement Accuracy: ±0.001mm
Working Volume: 700x1000x600mm
CMM: Quarterly calibration
Micrometers: Monthly verification
Height gauges: Bi-weekly check
First-Article Confirmation: Full-dimension verification of the first piece from each batch before full production.
Inspection Rounds: Key processes are checked and recorded every 2 hours.
Full Inspection Standard: 100% CMM inspection for critical mating dimensions.
Quality Management: ISO 9001:2015 certified.
Process Reference: Compliant with AS9100 Aerospace Quality Management System requirements.
Environmental Compliance: Meets RoHS and REACH directives.
ISO 9001: MAOZ-2023-001
RoHS Compliance: MAOZ-ENV-2024
Taking a 7075 Aluminum Alloy Motor Mount as an example:
Material Cutting → 2. Rough Machining (0.3mm stock) → 3. Stress Relief Heat Treatment → 4. Semi-Finish Machining (0.1mm stock) → 5. Natural Aging → 6. Finish Machining (to final dimensions) → 7. Deburring & Cleaning → 8. Hard Anodizing → 9. Laser Marking → 10. Final Inspection & Packaging
Design Review: 1-2 days
Programming: 1 day
Machining: 3-5 days
Surface Treatment: 2-3 days
Inspection: 1 day
Standard Lead Time: 7-12 working days (depending on batch size). Need to customize your drone components? Contact us immediately for a quote.
If you are interested in this exceptional product, please feel free to contact us through the message box on the left side or the contact information provided below. We are eager to collaborate with you for a brighter future!
