5-axis CNC machining
Our 5-axis CNC machining is mainly used for the machining of complex structures and precision parts. Compared with traditional 3-axis or 4-axis machining, 5-axis can complete more processes in a single setup, which helps to reduce cumulative errors and improve machining efficiency. In actual projects, we will choose the appropriate machining method according to the structure of the parts, materials and precision requirements, to ensure the stability of the machining, and at the same time, to better meet the needs of different products.
Why choose 5-axis machining
Reduce the number of clamping times, improve efficiency and reduce errors
Improved surface quality, better finish and precision
Supports high accuracy requirements: conventional tolerances can be controlled to ±0.01mm, and higher accuracy (e.g. ±0.002mm) can be achieved under specific structural and process conditions.
More flexible machining mode: through the CNC programming control, the machining path can be adjusted according to the structure of different parts, applicable to a variety of types of products.
Application of 5-axis CNC machining
Curved and Complex Structures: for curved parts and complex geometries (commonly used in automation equipment and high-end machinery).
Multi-face machining parts: for parts that require multi-angle machining (commonly found in structural parts of equipment and precision fittings)
High-precision structural parts: used for parts requiring high dimensional consistency (commonly found in medical equipment and precision instruments).
Molds and precision parts: for complex mold cavities and high-precision parts processing
Parts for automation equipment: structural and functional parts for automation equipment.
Jinan Xinling's 5-axis CNC machining capability
Jinan Xinling Machinery Equipment Manufacturing Co., Ltd. specializes in high-precision 5-axis CNC machining and the custom manufacturing of complex parts. Leveraging mature 5-axis machining centers and a stable process system, we provide customers with one-stop manufacturing services ranging from prototype development to mass production, meeting the high-standard machining requirements of parts across multiple industries.Five-axis simultaneous machining enables the completion of complex multi-angle and multi-surface machining operations in a single setup, effectively reducing positioning errors and improving overall machining accuracy and structural consistency. This method is particularly suitable for the manufacture of high-precision and complex structural parts.
The company is equipped with five high-precision CNC machining centers, offering reliable five-axis machining capabilities to meet the processing needs of parts of varying complexity, ensuring efficient delivery from single-piece prototyping to mass production.
Machining accuracy reaches up to ±0.002 mm, meeting the stringent standards of the high-end manufacturing industry for dimensional accuracy and fit requirements.
Our production model is flexible, allowing for rapid prototyping, small-batch pilot production, or large-scale manufacturing based on customer needs.
Materials We Can Machine
| Material Categories | Common Materials | Characteristics |
|---|---|---|
| Aluminum Alloy | 6061 / 7075 / 5052 / 6063 | Lightweight, high strength, easy to machine |
| Stainless Steel | 304 / 316 / 420 / 17-4 | Corrosion-resistant, high hardness, high stability |
| Carbon steel | 1018 / 4140 / A36 / 4130 | High strength, excellent structural properties |
| Brass | C260 / C360 | Easy to machine, good electrical conductivity |
| Copper | C101 / C110 | High electrical and thermal conductivity |
| Titanium alloy | Grade 2 / Grade 5 | High strength, lightweight, corrosion-resistant |
Different materials are suitable for different applications; we will select the appropriate material and process based on product functionality, operating environment, and cost requirements.
Our Surface Treatment Processes
| Surface Treatment Methods | Description |
|---|---|
| Anodizing | Improves corrosion resistance and enhances surface texture |
| Sandblasting | Improves surface uniformity and tactile feel |
| Polishing | Improves surface finish |
| Electroplating | Improves wear resistance and oxidation resistance |
| Coating | Provides color and a protective coating |
Surface treatment not only affects the visual appearance but also directly impacts the service life and performance of parts. We can provide tailored solutions based on application requirements.
Our Quality Control System and Application Areas
Raw Material Control
- • Strict screening of compliant suppliers
- • Comprehensive inspection of raw materials prior to warehousing
- • Material certification and batch traceability management
Process Control
- • Implementation of standardized manufacturing processes
- • Real-time monitoring of critical processes
- • Regular calibration of equipment accuracy
Finished Product Inspection
- • 100% inspection for dimensional accuracy
- • Visual quality inspection
- • Specialized inspection of critical components
Quality Assurance
- • Implementation of a 100% final inspection policy
- • Customizable inspection reports available
- • End-to-end quality traceability system
Five-axis industry applications
aerospace
Complex surface machining of titanium alloy / high temperature alloy, engine blades, impellers, magazines, structural frames, multiple processes in one setup, accuracy up to ±0.002mm, to meet the aerospace-grade reliability and lightweighting requirements.
Medical equipment
Suitable for customized processing of titanium implants, orthopedic joints, dental implants and precision surgical instruments, with a mirror-grade surface finish that combines biocompatibility and dimensional stability.
humanoid
Complex multi-curved parts such as high-precision joints, harmonic reducer housings, dexterous finger bones, lightweight skeletons, etc., with positional tolerance controlled within 0.005mm.
semiconductor industry
Processing of semiconductor device cavities, vacuum cavities, cooling plates, precision fixtures and shaped connectors, realizing micron-level precision machining of thin-walled, high-flatness and high-sealing structures.