In the field of mechanical manufacturing, the production efficiency of precision parts is an important indicator of product quality. In the production of many precision parts, the processing accuracy is usually required to reach the micron level or even higher. Due to the high manufacturing accuracy requirements of these parts, advanced processing technology must be adopted, and precision machine tools, cutting tools and measuring equipment must be used to minimize the error in the processing of precision mechanical parts. In addition, the impact of precision parts manufacturing technology on production efficiency cannot be ignored. Advanced processing technology can greatly improve processing efficiency. Therefore, it is necessary to master advanced mechanical processing technology.
What is precision machining and measurement?
Precision machining refers to the process of machining parts using ultra-precision machine tools, cutting tools and measuring equipment. These equipment are mainly used for machining high-precision and ultra-precision parts, such as machine tool spindles, bearings, gears, cams, measuring tools, etc. In the modern machinery manufacturing industry, in order to achieve the high-precision requirements of parts, precision machine tools, cutting tools and measuring equipment are needed to improve machining efficiency.
What is ultra-precision cutting technology?
Ultra-precision cutting technology mainly includes ultra-precision turning and ultra-precision milling. These two cutting methods have very high precision requirements and are mainly used to process high-precision, high-surface quality and high-precision parts.
Ultra-precision turning plays an important role in the part processing process. For complex curved surfaces, it is difficult to obtain good surface quality and good shape accuracy if ordinary turning is used. For such complex curved surface parts, ultra-precision turning can be used.
This processing method usually uses diamond tools. It can achieve sub-micron or nanometer precision. In addition, during the processing, due to the use of cutting fluid, not only can the tool wear and tool deformation be reduced, but also the impact of vibration on surface quality can be reduced to ensure the processing quality. This is a precise and efficient processing method.
What is composite machining technology?
Composite machining technology is a machining technology that organically combines mechanical machining with electrical machining. It can comprehensively apply two or more mechanical machining methods to perform different treatments on one or several different parts of the machined parts.
Composite machining technology usually includes milling, grinding and cutting. By adopting composite machining technology, precision parts can obtain better material removal rate, higher production efficiency and lower cutting cost while maintaining the original geometric accuracy and surface quality.
Therefore, composite machining technology has become an important advanced technology in the modern machinery manufacturing industry.
What is nanomanufacturing technology?
Nanomanufacturing technology is a modern manufacturing technology based on nanoscale, with materials as carriers and mechanical processing technology as means. Nanomanufacturing technology is an important support for the future advanced manufacturing industry. It utilizes the basic principles of nanomaterials, nanotools and nanodevices, has unique functions and structures, has broad application prospects in the field of mechanical processing, and is of great significance to improving processing efficiency and reducing costs.
