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What workpieces are suitable for CNC vertical lathes?
2023-10-07 13:20:17

CNC vertical lathes are suitable for processing various types of workpieces, especially those that require high precision, high efficiency and complex shapes. Here are some workpiece types suitable for machining:

1. Parts and mechanical parts: CNC vertical lathes are often used to process various mechanical parts, such as bearings, gears, pins, flanges, threads, etc.
2. Molds and mold parts: Manufacturing molds and mold parts usually requires highly precise processing, and CNC vertical lathes can meet this demand, such as injection molds, die-casting molds, stamping molds, etc.
3. Auto parts: In the automobile manufacturing industry, CNC vertical lathes are used to process engine parts, braking system parts, suspension system parts, transmission system parts, etc.
4. Aerospace parts: The aerospace industry requires very high precision and quality of parts. CNC vertical lathes can be used to process various parts of aircraft, spacecraft and other aircraft.
5. Medical equipment parts: High-precision parts required for manufacturing medical equipment, such as implants, surgical tools and medical device parts, can also be processed by CNC vertical lathes.
6. Electronic and electrical parts: Small precision parts used in electronic equipment, circuit boards and electrical components, such as connectors, connectors and radiators, can also be manufactured using CNC vertical lathes.
7. Ship parts: CNC vertical lathes can be used to process various parts of ships, including hull structures, propulsion system components, etc.
8. Military and defense parts: The military industry requires highly confidential and high-precision parts, and CNC vertical lathes can be used to manufacture various parts for military equipment.

In general, a CNC vertical lathe is a multi-functional machine tool that is suitable for various industrial fields and can process workpieces of different materials, including metals, plastics, ceramics, etc., so it has broad application prospects in the manufacturing industry. Its key advantages include high precision, high efficiency, high degree of automation and the ability to cope with complex geometries and requirements.

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