Our Machining Ability:
1. Tolerance of CNC Electronic (Electric) Parts: ≧0.005 mm
2. Materials commonly used for CNC electronic parts include:
- Aluminum alloys such as AL6061-T6 and AL7075-T6
- Stainless steel grades like SUS303 and SUS304
- Other metals such as pure nickel, pure iron, SCM 415, SCM440, 12L14, C3604, C6802, C5191, C3602, C3603, C3601, SAE-660 (660BRZ), C1020, C1100
- Plastics such as POM
- Ceramics
The selection of materials depends on specific application requirements such as temperature range, chemical resistance, and mechanical strength
Achieving a tolerance of at least 0.005 mm requires specialized equipment and techniques, such as high-precision measuring tools, CAD software, and multi-axis CNC machines.
There are several key points to consider when manufacturing electronic turn parts. Here are some of the most important ones:
Design and prototyping: Before manufacturing electronic turn parts, it's important to have a clear design and prototype in place. This ensures that the parts are correctly designed and function as intended.
Material selection: The selection of materials used in the manufacture of electronic turn parts is crucial. The right materials must be chosen to ensure that the parts are durable, have the right electrical and mechanical properties, and are able to withstand the environmental conditions in which they will be used.
Precision machining: Electronic turn parts require a high level of precision machining to ensure that they meet the required tolerances and specifications. This involves the use of advanced manufacturing techniques, such as CNC machining and 3D printing.
Quality control: Quality control is critical in the manufacture of electronic turn parts to ensure that the finished products meet the required standards. This involves rigorous testing and inspection at every stage of the manufacturing process.
Assembly and testing: Once the electronic turn parts have been manufactured, they must be assembled into the final product and tested to ensure that they function correctly. This involves the use of specialized testing equipment to verify that the parts meet the required specifications.
