Description
1. Product Details
CNC Machining or Not: 5-Axis CNC Machining
Type: Drilling, Laser Machining, Milling, Turning
Material Capabilities: Aluminum, Brass, Bronze, Precious Metals, Stainless Steel, Aluminum, Brass, Bronze, Copper
Place of Origin: Guangdong, China (Mainland)
Material: Aluminum
Tolerance: +/-0.01mm
Process: CNC machining, Milling and Turning
Surface Treatment: As Machining
High Pricesion: Aluminum 5-Axis CNC Machining
Service: OEM & ODM & Sample are acceptable
2. Product Description
Business Type
Manufacturer
Our Advantage
1. Shenzhen Tengxing Precision Technology Co., Ltd. is factory providing CNC machining service , we focus on client's demand and client's satisfaction.
2. Provide 2D & 3D drawing for modifying
3. Competitive price with good quality
4. Small order is acceptable
5. Short delivery time (15-25days according to order Qty)
6. Customized size and specification /OEM available
7. In Shenzhen, convenient transportation
Application
Automobile, Motorcycle, Bicycle, Scooter, Machinery, electronics, furniture, construction and other industrial uses.
3. Advantages of 5-Axis CNC Machining
5-Axis is an advanced form of CNC machine that offers the movement of tools in five directions. The following are a few of the fundamental advantages associated with a 5-Axis CNC machine:
Fast Removal of Material
5-Axis CNC machine enables you to reduce the cycle time manifold. It excels the production in shorter periods. Essentially, it is due to its ability to allow the tool to remain tangential to the surface of the workpiece and remove more material in each tool pass, making the material removal rate from the surface faster. In this way, the cost-effectiveness of the product is also enhanced.
Minimized Steps
Making complex parts on a 3-Axis CNC machine involves multiple steps. Workpiece goes through different processes, like manually rotating the part, as the number of options available is minimal, and the tool movement is limited. But then again, in a 5-Axis CNC machine, very few steps are required to shape the material into the required product with intricate geometrical dimensions.
Enhanced Surface Finishing
Capabilities of 5-Axis CNC machine on contoured geometry result in the production of excellent surface finish. On the other hand, we know that 3-Axis machines take a long time in making such surface finish due to minor cuts that must be used to produce such results.
Elimination of Complex Fixtures
3-Axis CNC machining involves the installation of the workpiece on the fixture before machining in the required orientation for the desired feature. In contrast, this process is eliminated in a 5-Axis CNC machine. The workpiece doesn’t need additional fixtures because the part has to be fixed and operated once to get machined. Henceforth, it also reduces the cost of the fixture.
No Competition
5-Axis CNC machine is not very common in the machining arena; its efficiency and quality features don’t have any competition in the market. So, using this type of machine setup can give you multiple profits, and you can even better your production efficiency with this updated beast.
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Our Processing
CNC machining, CNC milling and turning, drilling, grinding, bending, stamping, tapping, etc.
Surface Finish
Surface treatments need to include: anodizing, hard anodizing, blackening, chromate treatment, electrophoresis, wire drawing, sandblasting, powder coating, spraying, electrolytic polishing, and screen printing.
Tolerance
+/-0.01mm
QC System
100% inspection before shipment
Drawing Format
CAD / PDF/ DWG/ IGS/ STEP
Payment Terms
50%T/T in advance, 50% balance before delivery; Pay Pal or T/T is acceptable.
Faq
Precision metal parts manufacturing refers to the process of shaping metal materials—such as steel, aluminum, copper, and stainless steel—into high-accuracy, complex components using techniques like turning, milling, grinding, stamping, and CNC machining. The core of this process lies in controlling dimensional tolerances (as tight as ±0.001mm), geometric tolerances, and surface finishes. It is widely applied in industries such as automotive, medical devices, aerospace, and telecommunications.
Common processes include: CNC Machining: Suitable for complex 3D shapes, offering high precision and flexibility. Stamping: Ideal for high-volume production of thin-walled metal parts, with high efficiency. Turning: Primarily used for rotational parts like shafts and sleeves. Milling: Used for machining planes, curves, slots, and holes. Wire EDM / EDM: For machining high-hardness materials or complex molds. Laser Cutting / Waterjet Cutting: Suitable for precision sheet metal blanking. Surface Treatment: Such as plating, anodizing, sandblasting, and passivation, for corrosion resistance or aesthetics.
Selection should consider: Functional Requirements: Strength, hardness, wear resistance, corrosion resistance, conductivity, etc. Process Suitability: Aluminum (easy to machine, lightweight), stainless steel (corrosion-resistant), copper (good conductivity), titanium alloys (high strength, biocompatible). Cost and Lead Time: Common materials (e.g., 45# steel, 6061 aluminum) are cost-effective and readily available; specialty alloys (e.g., Inconel, molybdenum) are more expensive and may require pre-ordering.
Material Cost: Raw material type, usage, and market fluctuations. Complexity of Machining: Number of processes, precision requirements, special treatments (e.g., mirror polishing). Order Quantity: High volumes can amortize mold/programming costs, reducing unit prices. Quality Certifications: Certifications like medical (ISO 13485) or automotive (IATF 16949) may increase management costs. Surface Treatment and Packaging: Special coatings, vacuum packaging, etc., add to the cost.
Standard Tolerance: ±0.1mm or above, suitable for structural parts, housings, etc. Precision Tolerance: ±0.01mm to ±0.05mm, suitable for mechanical assembly parts. High-Precision Tolerance: Within ±0.005mm, suitable for critical components in aerospace, optical instruments, etc. Recommendation: Define tolerances based on actual functional needs, as unnecessarily tight tolerances significantly increase costs.
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