To ensure machining accuracy, we typically require you to provide design drawings (in CAD format) and technical specifications of the parts, including dimensions, tolerances, surface treatments, and material requirements. If your parts have special requirements, you can also provide relevant testing standards and quality requirements.

Our CNC machined parts can achieve a minimum tolerance of ±0.003mm, making them highly suitable for the production of precision parts that meet most industrial standards.

CNC machining is widely applied to the processing of various materials, including metals (such as aluminum, stainless steel, titanium alloys), plastics (such as POM, ABS, nylon), and other composite materials. Different materials will be selected for different machining methods and tools based on their characteristics.

The lead time for CNC machining typically depends on the complexity of the parts and the quantity of the order. For small batches or single prototypes, we can deliver within a few days to a week. For large-scale production, the lead time will be extended accordingly. Specific timelines can be customized based on your needs.

We ensure the precision and consistency of each part through strict quality control processes. Each machining step undergoes precise measurement and inspection to ensure the final product meets design requirements. Additionally, our team conducts detailed quality checks before and after machining to ensure each part is defect-free.

The cost of CNC machining is typically influenced by several factors:

• Type and quantity of materials
• Complexity of the parts
• Machining time
• Post-processing (such as surface treatment, assembly, etc.) We provide detailed quotes and lead times based on your specific requirements and drawings.

CNC machining is not only suitable for producing single prototype parts but is also very well-suited for mass production. With precise numerical control systems and efficient production processes, we can maintain consistency and high precision in mass production. This makes CNC machining an ideal choice for large-scale industrial manufacturing.

The greatest advantages of CNC machining over traditional manual machining are its high precision, efficiency, and consistency. With computer control, CNC can achieve precise machining of complex shapes and details while reducing manual operations and errors. Additionally, CNC machining can significantly improve production efficiency and shorten delivery times.

3D printing is a technology that manufactures objects by stacking materials layer by layer, also known as additive manufacturing. It starts from digital design files (such as STL format) and uses various materials (like plastics, metals, resins, etc.) to print complex shapes and structures that traditional methods cannot easily achieve.

Common 3D printing materials include:

• Plastics: Such as PLA, ABS, TPU, nylon, etc.
• Metals: Such as stainless steel, titanium alloys, aluminum alloys, etc.
• Resins: Used for high-precision printing, suitable for manufacturing small and intricate parts.

The choice of material typically depends on the application requirements, durability, cost, and processing precision of the printed item.