Application of precision machining

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Update time : 2023-02-18 14:20:28

Application of precision machining

Which industries are precision machining mainly used in? 

The basic form of precision machining is to take a larger piece of material and cut away the excess to produce a smaller piece of material. Use a material removal procedure to displace larger material in some way. This small piece of material will be exactly where it needs to be and can be used to do its job successfully. Often, it involves cutting the material to precise shapes and sizes, so a variety of machinery is used.

Precision machining is an emerging field in manufacturing, and its work impacts our everyday lives. As technology advances manufacturing, precision machining will produce many of the large and small objects we use in our daily lives, and every tiny part of an object requires some level of mechanical skill.

This type of machining is the process of cutting various materials to precise specifications. This process often involves removing excess from metal components (or other materials) and reshaping them to high tolerance levels. Simply put, precision machining reorganizes most materials into smaller, finer components.

 

What are the main uses of precision machining?

Typically typical of high-volume production in the automotive industry, aerospace components, shipbuilding components, and testing of new models and engines, while the main service for high-volume production in the mold and die industry is single-piece low-volume production. The role of precision machining in small batch production is a good way to save time costs, material costs, and speed up product marketing cycles.

Small batch production is closely related to hand models, which are the premise of small precision machining, and small precision machining is established on the basis of hand models. Precision machining can satisfy more personalized product customization to a large extent. In short, precision machining is essential to creating the most critical components in many demanding applications.

Machining produces finished parts that are much more rigorous than those produced by standard CNC. This is an excellent solution to meet stringent project requirements such as: Tight Tolerances: With the right equipment, Precision Machining can produce parts with tolerances of less than ±0.0001 inches. Repeatability: Successful precision machining means that the same tight tolerances must be able to be machined repeatedly from part to part. Quantity: Precision machining practices can accommodate virtually any volume need, from prototypes to mass production and turnkey contracting.

It can be used for precision machining of various raw materials such as plastics, ceramics, metals, composite materials, steel, bronze, graphite, glass, etc. A variety of tools are available for precision cutting and complex stock removal. These tools vary by raw material. Commonly used tools include milling machines, lathes, electrical discharge machines (also known as EDMs), saws, and grinders. One of the more common types of manufacturing equipment is computer-controlled heavy machinery that removes base material to form fine parts. In some cases, high-speed robotics and photochemical processes can even be used to achieve the desired outcome of the end product.