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CUSTOM CNC MACHINING SERVICE
Our custom CNC machining service delivers precision components with tight tolerances (±0.001mm) via advanced 3/4/5-axis mills and lathes. We process aluminum, steel, engineering plastics, and more, catering to prototype, small-batch, and high-volume production needs. Adhering to ISO 9001 standards, every part undergoes strict quality checks. We partner with you to turn your specs into reliable, on-time solutions for automotive, mold-making, and beyond.
Custom CNC Machining Manufacturer
Core Capabilities
Machining Precision
±0.005mm tolerance for critical mold components.
Process Range
3-axis / 4-axis / 5-axis CNC milling & turning for molds, jigs, and precision parts.
Material Expertise
Specialized in mold steel (H13, P20), aluminum, stainless steel & engineering plastics.
Service Advantages
Fast Lead Time
1-3 days for prototype parts; 5-10 days for small-batch mold components.
Quality Guaranteed
100% inspection with CMM (Coordinate Measuring Machine) before shipment.
Customized Support
OEM/ODM service with 24h online technical communication.
Case Showcase
Plastic CNC Machining
- PC
- PP
- ABS
- POM
- PMMA
- PEEK
- Nylon/PA
Aluminum CNC Machining
- 6061-T6
- 7075-T6
- 5052-H32
- 2024-T351
- 6063-T5
Stainless Steel CNC Machining
- SS304
- SS316
- SS430
- SS410
- SS303
CNC Turnning Parts
CNC Milling Parts
CONTACT US
CONTACT US TO LAUNCH YOUR PROJECT
Ready to turn your CNC machining project ideas into reality? Submit your specifications, material preferences, and production volume below. Our expert team will review your request promptly, deliver a detailed, competitive quote, and ensure your project meets tight tolerances and ISO 9001 standards. Don’t miss out on reliable, on-time solutions—fill in the form now and start your collaboration with us!
Common CNC Machining Difficulties & Solutions
Difficulty:
Material sticking to the tool (common in aluminum, stainless steel, and soft plastics like nylon)
Solution:
Use high – performance cutting tools with anti – adhesion coatings (e.g., TiN, TiCN), increase cutting speed appropriately, and apply sufficient coolant to reduce tool – workpiece friction.
Difficulty:
Workpiece deformation during machining (prevalent in thin – walled parts and soft materials like PP)
Solution:
Adopt a layered cutting strategy to reduce cutting force, use fixtures with uniform clamping force, and perform stress relief treatment on the workpiece before machining.
Difficulty:
Poor surface finish (caused by tool wear, improper cutting parameters, or vibration)
Solution:
Replace worn tools in a timely manner, optimize cutting parameters (reduce feed rate, increase spindle speed), and enhance the rigidity of the machine tool and fixture to minimize vibration.
Difficulty:
Rapid tool wear (especially when machining high – hardness materials like 7075 aluminum alloy, 410 stainless steel)
Solution:
Select tools with high hardness and wear resistance (e.g., carbide tools), reduce cutting depth, and use coolant with lubricating properties to extend tool life.
Difficulty:
Chip clogging (easily occurs in deep hole machining and blind hole machining)
Solution:
Choose tools with excellent chip evacuation grooves, adopt interrupted cutting methods, and increase coolant pressure to flush chips out of the machining area in time.
Difficulty:
Dimensional deviation of precision parts (resulting in tool deflection, let – off, or workpiece positioning errors)
Solution:
Use short – shank tools to improve rigidity, calibrate fixtures and tool setting accuracy regularly, and conduct in – process dimensional inspection to adjust parameters in time.
