People are interested in CNC machine tools because of their adaptable automation performance, excellent and stable precision, and flexible and diverse feature sets. The conditions for the technological advancement of CNC machine tools are aluminum casting factory provided by the rapid development of technology associated with CNC systems. The manufacturing industry is able to achieve high levels of efficiency, high quality, and low cost production with the help of ultra-high-speed processing technology, which has a wide range of applications. Countries such as Europe, the United States of America, and Japan have been competing against one another since the 1990s to develop and apply a new generation of high-speed CNC machine tools in order to accelerate the development of high-speed machine tools.

Elastic deformation, friction, and backlash are all things that will inevitably take place during the transmission process. These three events will lead to nonlinear errors such as motion hysteresis. Because the machine tool in question does not have any intermediate links, it has been directly driven by a linear motor since 1993. This has allowed the impact of these errors on the accuracy of the machining to be eliminated. The zero drive system not only achieves high speeds and accelerations, but it also has small moments of inertia, high stiffness, and quick response times. Theoretically, its stroke is not restricted in any way, and in practice, thanks to the high-precision zinc die casting products position feedback system, its positioning accuracy is easily capable of being taken to a higher level. The maximum speed and acceleration of high-speed and high-precision machine tools that use linear motors have reached 208 meters per minute and 2 g, respectively, but there is still room for further development in both of these areas. Workpiece handling, loading and unloading, installation adjustment, tool change, spindle lifting speed, and other aspects of the process of processing parts take up a significant amount of time that could be better spent elsewhere. As a result, the compound function machine tool is an example of a tool that has experienced significant advancement in the recent past. After the workpiece has been clamped a single time, the concept of machine tool composite machining in the field of flexible manufacturing means that the machine tool automatically performs multi-process processing on the same or different processing methods according to the CNC machining program, in order to realize CNC machining of the workpiece. This allows the CNC machining to be completed.

Turning, milling, drilling, boring, grinding, tapping, reaming, and tapping are some of the additional processing procedures that can be performed on complex shape parts. When it comes to prismatic parts, the machine tools that are most commonly used for multi-process compound processing using the same processing method are machining centers. Compound machining, which is performed on machine tools, has been shown to improve machining accuracy and efficiency, save space, and most significantly reduce the amount of time required for the machining cycle of parts. As a result of the widespread adoption of five-axis CNC systems and the proliferation of five-axis CNC programming software, five-axis CNC machining centers and CNC milling machines have emerged as leading contenders in the race to perfect free-form surface processing. In addition to this, it has the capability of ensuring that the ball end milling cutter maintains an appropriate cutting speed throughout the process of milling the three-dimensional surface. This has the dual effect of significantly reducing the roughness of the surface that has been machined and significantly increasing the effectiveness of the processing.

However, the machine tool that is controlled by a three-axis linkage is unable to prevent the ball-end milling cutter from taking part in the cutting process even when the cutting speed is very close to zero. As a consequence of this, the five-axis linkage machine tool works in conjunction with it. The irreplaceable performance advantages have become the center of attention for active development and competition among the major machine tool manufacturers. The machining shape can be anything, and the cutting depth can be very shallow, but the efficiency of the machining is so low that it cannot be used in a practical setting. In general, CNC machine tools are oriented to the production site as well as the internal LAN of the enterprise. After that, they are connected to the Internet in order to communicate with users outside of the enterprise. In recent years, the concept of digital manufacturing has been proposed as a response to the maturation and development of network technology.

From point and line to plane and body is the direction that CNC machine tool development is heading in the direction of flexible automation systems. The development of the system is the first step in its construction, and the second step is to concentrate on applications and the economy. It is the fundamental technology in the field of advanced manufacturing and the predominant trend in the development of manufacturing industries in a variety of countries. Develop a single CNC machine tool that is geared toward high precision, high speed, and high flexibility; connect CNC machine tools and communicate with CAD, CAM, and other design software; and emphasize the development and perfection of unit technology. A scalable and adaptable production method that combines capp and mts. Both the direction of information integration and the direction of the development of the network system toward openness, integration, and intelligence are developing.

To achieve the goal of "greening" the cutting process in the 21st century, machine tools used for cutting metal must give priority to the preservation of the natural environment and the conservation of energy resources. At the moment, the primary focus of this environmentally friendly processing technology is on avoiding the use of cutting fluid. This is primarily due to concerns regarding the health of workers and the environment, as well as the fact that the use of cutting fluid results in an increased demand for resources and energy. Cutting without the use of cutting fluid can take place either in the atmosphere or in a specialized gas environment. Dry cutting is performed in the atmosphere the majority of the time. However, in some machining processes and combinations of workpieces, dry cutting—which does not involve the use of cutting fluid—still has certain challenges to overcome in practical application.

Dry cutting and quasi-dry cutting are two methods that are currently being utilized in between 10 and 15 percent of large-scale machining in Europe. Typically, a very small amount of cutting oil and compressed air is mixed together and sprayed into the cutting zone through hollow passages that are located in the spindle and tool of the machine tool. The gear hobbing machine is the type of machine tool that is used for dry die casting aluminum cutting the most frequently out of all the different kinds of metal cutting machine tools. It is possible to anticipate that the manufacturing industry will usher in a profound revolution, which will shake the traditional manufacturing model, as a result of the development of CNC machine tool technology and the widespread application of CNC machine tools. This prediction can be made because it is possible to predict that CNC machine tool technology will be widely applied.