The Development Trend Of Precision Parts Machining In The Future

- Feb 13, 2019-

he main Machining process include CNC Machining, CNC turning, Auto lathe turning, CNC Milling,Stamping, Sheet metal fabrication, Casting, Injection molding etc.

Our company takes the high-precision mechanical parts as the processing object. Using systematization, integration theory and technology, according to the structure and requirements of machining workpiece, the organic combination and optimization of feeding, processing, testing and handling are realized, and the production of parts and components is completed under accurate processing conditions.

The purpose is to realize the idea of "machining small parts with small machine tools", which is different from the manufacturing method and technology of common mechanical parts. It will be the most effective processing method for high-precision parts of non-silicon materials (such as metals, ceramics, etc.). Can fundamentally solve the problem of precision instrument parts processing. It has high precision, low energy consumption, flexible production and high efficiency. Reducing the size and scale of the whole manufacturing system and precision parts can save energy as well as manufacturing space and resources and conform to the production mode of energy saving and environmental protection. Green manufacturing is one of the development directions.

With the development of aerospace, national defense industry, microelectronics industry, precision automobile parts, modern medicine and bioengineering technology. The demand for precision / ultra-precision mechanical parts (characteristic sizes ranging from micron to millimeter) is increasingly urgent. The specialization of structure shape, the diversification of parts and materials, the high precision of dimension and surface quality are the remarkable features of high precision mechanical parts and their micro devices and equipments, which are used in function, material characteristic, structure shape, Reliability and other aspects of the requirements are also getting higher and higher.

High-precision components are used in various industries. At present, they are mainly used in scientific instruments, electronic appliances, automobile parts and so on. I believe that ultra-high precision parts will be used in more fields in the future. But the precision machinery manufacture will have the bigger development space in the future domain.