Machining machine parts
Machine parts are small but very important parts to form a complete modern machine system. Machine parts processing is also developed according to the development of science and technology. Therefore, to achieve professional improvements in processing methods, it is necessary to upgrade the technological process of machine parts processing.
Machining machine parts is the process of cutting the shape of machine parts from raw blanks into finished products with precise dimensions and structures. In this process, surface machining is the most important because it requires meticulousness and the quality of the finished product must be smooth and durable.
The same type of raw material but with different processes and modes will create finished products with different surface quality and different usage properties. Surface quality is evaluated according to the criteria of geometric characteristics of the surface such as roughness, waviness, errors and criteria of physical properties of the surface such as hardness, residual stress, surface layer structure.
Machine part processing application:
- Helps the machining process of machine parts become extremely easy and more productive.
- Produce products with extremely high precision
- Helps save a lot of time and effort compared to traditional processing.
- The technology of using machines to process metal does not require workers to have high cutting skills as before, but it does require a higher level of knowledge about mechanics, how to operate machines, cutting tools, and requires a huge amount of knowledge.
Machine part processing process :
Product design drawings: View and study detailed drawings, learn about the purpose of use and classification of details, technical requirements and technological characteristics of machine parts.
Production type to be performed: Piece production, mass production, mass production.
Select blank and blank manufacturing method: Select blank with appropriate size and blank manufacturing method.
It is necessary to determine the order of steps, operations…, choose the fixture diagram for each operation and propose methods to carry out the processing.
Choose the right tools, equipment and fixtures because it determines the quality of the product.
Identify processing methods for each stage and step in the process.
Choose the right tools for the job at hand.
Assign each step to the workers or technicians.
Conduct processing on machines such as CNC,…
Check product quality upon completion.
