In sleeve turning and milling compound precision machining technology, the tool is not only a direct tool for machining, but also a key factor to ensure machining accuracy and efficiency. The quality and performance of the tool directly affect the accuracy and surface quality of the machining results. Therefore, the selection of high-quality tools is crucial for sleeve turning and milling compound precision machining technology.

In the field of precision machining, the selection and use of tools have a decisive influence on machining accuracy and efficiency. The material, geometry, and edge state of the tool will directly affect the cutting force, cutting temperature, cutting vibration and other parameters during the machining process, and then affect the machining accuracy and surface quality. Therefore, choosing a tool that meets the machining requirements is an important prerequisite for achieving high-precision machining.

Sleeve turning and milling compound precision machining technology combines two machining methods, turning and milling, and has more stringent requirements on tools. First, the tool needs to have good wear resistance to cope with long-term and high-intensity machining needs. Secondly, the cutting performance of the tool must be superior, and it can improve the machining efficiency while ensuring machining accuracy. In addition, the tool also needs to have a stable geometry and edge state to ensure stability and consistency during the machining process.

In order to meet the requirements of sleeve turning and milling composite precision machining technology, the tools used are usually made of high-quality materials and precision manufacturing processes. High-quality materials such as high-speed steel, cemented carbide, ceramics, etc. have good wear resistance and cutting performance, and can meet the needs of long-term and high-intensity machining. At the same time, precision manufacturing processes such as grinding and polishing can ensure that the geometry and edge state of the tool meet high-precision requirements and improve machining accuracy and surface quality.

During the manufacturing process, the tool needs to undergo multiple processes of fine machining and testing to ensure that its quality and performance meet the standard requirements. At the same time, manufacturers also need to customize and optimize the tool according to the processing requirements to improve processing efficiency and reduce costs.

In the sleeve turning and milling composite precision machining technology, the application of tools is crucial. By selecting high-quality tools and reasonably setting processing parameters and process routes, high-precision and high-efficiency machining effects can be achieved. At the same time, the maintenance and care of the tool is also crucial, and it is necessary to regularly check and replace severely worn tools to ensure machining accuracy and stability.

As the core tool of sleeve turning and milling composite precision machining technology, the quality and performance of the tool directly affect the machining accuracy and efficiency. Selecting high-quality tools and reasonably setting processing parameters and process routes are important prerequisites for achieving high-precision processing. With the continuous development and innovation of technology, I believe that more high-performance and high-quality tools will be used in sleeve turning and milling compound precision processing technology in the future, making greater contributions to the development of the manufacturing industry.