It is well known that the machining of precision parts is an essential step in a variety of closely related industries. Precision parts are involved in many types of products and are mainly allocated according to the nature of the product. Generally speaking, precision parts are parts of equipment that are machined in a variety of ways to make them better for use and operation and also to meet the needs of the industries and customers involved, and to facilitate this process, many industries are changing their technology to improve the quality of the parts and materials. 

Precision parts machining has many advantages, and we have previously shared with you exactly what the advantages of precision parts machining are. The most obvious is that high precision can be achieved that cannot be achieved by ordinary machining. High precision also relies on precision machining equipment and accurate restraint systems. And the use of precision masks as intermediaries to achieve very fine control of the amount of material removed or added to the outer layer. So what are the specific characteristics of precision parts processing?

 A, precision parts cutting processing

 Mainly precision turning, mirror grinding and grinding, etc., in the precision lathe with a fine grinding of single crystal diamond turning tool held micro-turning, cutting thickness of only about 1 micron, commonly used in the processing of non-ferrous metal materials such as spherical, aspheric and flat mirrors and other high-precision, highly polished parts, such as the processing of nuclear fusion devices with a diameter of 800 mm aspheric mirrors, the highest precision can reach 0.1 micron, the external roughness of Rz0.05 micron. 

Second, precision parts processing 

Precision parts processing accuracy to nanometers, or even finally to the atomic unit (atomic lattice distance of 0.1 to 0.2 nanometers) as the target, ultra-precision parts cutting and processing methods can no longer adapt, it is necessary to use special precision parts processing methods, that is, the application of chemical energy, electrochemical energy, thermal energy or electrical energy. Make these energies beyond the joint energy between the atoms, so as to remove the workpiece appearance of part of the attachment between the atoms, joint or lattice deformation, in order to achieve the purpose of ultra-precision machining, belonging to this type of processing are mechanical chemical polishing, ion sputtering and ion injection, electron beam exposure, laser beam processing, metal vapor deposition and molecular beam epitaxy, etc..

About the characteristics of precision parts processing today to introduce to you here, want to know more information can be viewed in our company information

It is well known that the machining of precision parts is an essential step in a variety of closely related industries. Precision parts are involved in many types of products and are mainly allocated according to the nature of the product. Generally speaking, precision parts are parts of equipment that are machined in a variety of ways to make them better for use and operation and also to meet the needs of the industries and customers involved, and to facilitate this process, many industries are changing their technology to improve the quality of the parts and materials. 

Precision parts machining has many advantages, and we have previously shared with you exactly what the advantages of precision parts machining are. The most obvious is that high precision can be achieved that cannot be achieved by ordinary machining. High precision also relies on precision machining equipment and accurate restraint systems. And the use of precision masks as intermediaries to achieve very fine control of the amount of material removed or added to the outer layer. So what are the specific characteristics of precision parts processing?

 A, precision parts cutting processing

 Mainly precision turning, mirror grinding and grinding, etc., in the precision lathe with a fine grinding of single crystal diamond turning tool held micro-turning, cutting thickness of only about 1 micron, commonly used in the processing of non-ferrous metal materials such as spherical, aspheric and flat mirrors and other high-precision, highly polished parts, such as the processing of nuclear fusion devices with a diameter of 800 mm aspheric mirrors, the highest precision can reach 0.1 micron, the external roughness of Rz0.05 micron. 

Second, precision parts processing 

Precision parts processing accuracy to nanometers, or even finally to the atomic unit (atomic lattice distance of 0.1 to 0.2 nanometers) as the target, ultra-precision parts cutting and processing methods can no longer adapt, it is necessary to use special precision parts processing methods, that is, the application of chemical energy, electrochemical energy, thermal energy or electrical energy. Make these energies beyond the joint energy between the atoms, so as to remove the workpiece appearance of part of the attachment between the atoms, joint or lattice deformation, in order to achieve the purpose of ultra-precision machining, belonging to this type of processing are mechanical chemical polishing, ion sputtering and ion injection, electron beam exposure, laser beam processing, metal vapor deposition and molecular beam epitaxy, etc..

About the characteristics of precision parts processing today to introduce to you here, want to know more information can be viewed in our company information