In the 21st century, machinery and equipment need to improve the processing level, not to mention CNC precision parts processing, not to mention the scope, and the effect is even more indispensable. With the current market expansion rate is getting faster and faster, the machinery and equipment currently developed less, but the processing strength has not yet reached the ideal, so there are still certain reasons to improve the processing technology. Now please follow the CNC Precision Machining Factory to understand how CNC precision parts can improve the processing technology!
Aluminum alloy is the most widely used nonferrous metal material in industry, and it is widely used in aviation, aerospace, automobile, machinery manufacturing, shipbuilding, chemical industry, household appliances and daily necessities. With the rapid development of science and technology and industrial economy in recent years, the increasing demand for aluminum alloy precision parts has led to more and more in-depth research on the CNC processing technology of aluminum alloys.
Pure aluminum has low density, low melting point, high plasticity, easy processing, and can be made into various profiles and plates. Good corrosion resistance. Aluminum alloy is obtained by adding other metal elements to the metal aluminum, such as silicon, iron, copper, aluminum, etc. The aluminum alloy obtained by adding other metals has the characteristics of low density, high strength, corrosion resistance, etc. It is light and portable The characteristics such as strength and strength make aluminum alloys widely used in the processing and manufacturing of various parts, and aluminum alloy parts are widely used in industry and life.
Aluminium Alloy Customized Parts
The wide application of aluminum alloys has promoted the development of Aluminium Alloy Customized Parts processing technology. At the same time, the development of CNC processing technology has expanded the application field of aluminum alloys. Aluminum alloy parts machining, also known as CNC machining, automatic lathe machining, CNC lathe machining, etc., which is characterized by processing mold parts with general machine tools such as turning, milling, planing, drilling, grinding, etc., and then necessary repairs are repaired and assembled into various parts. A variety of molds; mold parts with high precision requirements can only be processed with ordinary machine tools, and it is difficult to ensure high processing accuracy. Therefore, precision machine tools are required for processing; in order to make mold parts, especially punches with complex shapes, concave model holes and cavity processing To be more automated and reduce the workload of fitter repairs, it is necessary to use CNC machine tools (such as three-coordinate CNC milling machines, machining centers, CNC grinding machines and other equipment) to process mold parts.
CNC cutting is a CNC Precision Machining Parts processing method that makes the cutting process more rational. It is also a common process for aluminum alloy precision machining. It uses an end mill with multi-directional cutting functions, spiral cutting interpolation, and contour cutting interpolation Way, it selects the fewest tools to process a small number of holes. The unique advantage of CNC machining of aluminum alloy precision parts is that the ball end mills combined with the spiral interpolation method can perform continuous processing of tapered holes; the use of ball head end mills and spiral interpolation drills can perform boring and chamfering Machining; the vertical milling cutter can be used for semi-precision machining and precision part processing for holes, and the vertical milling cutter can be used for machining various kinds of threaded holes.