precision parts magnetic polishing machine-Characteristics of Precision Parts
Precision parts refer to parts that require very high precision in size, shape, position, etc., and usually require precision to reach millimeter, submillimeter, or even smaller levels. The characteristics of precision parts include the following aspects:
High precision: Precision parts have very high requirements on the accuracy of size, shape, position, etc., and usually require accuracy to reach millimeter, submillimeter, or even smaller levels. High precision is one of the most basic characteristics of precision parts.
High stability: Precision parts are required to maintain stable size, shape, position and other accuracy during use, without being affected by external factors, and have high stability.
High wear resistance: Precision parts are usually required to have high wear resistance, which can maintain the same size and shape for a long time without being affected by wear.
High reliability: precision parts are required to have high reliability during use, and no failure or failure will occur, so as to ensure the normal operation of equipment or systems.
High-precision machining: The manufacture of precision parts requires high-precision machining techniques, such as CNC machining, EDM, etc., to ensure accuracy and quality requirements.
High-purity materials: precision parts are usually made of high-purity materials, such as high-purity metals, ceramics, etc., to ensure the stability of their physical and chemical properties.
Precision parts have the characteristics of high precision, high stability, high wear resistance, and high reliability. The manufacturing process requires high-precision processing technology and high-purity materials to meet their high precision, high stability, and high reliability. requirements.
The role of magnetic polishing of precision parts
Precision parts magnetic polishing machine is a surface treatment method that can remove surface burrs, blemishes, oxide layers and other undesirable substances without damaging the accuracy of the size, shape, and position of the parts, thereby improving the surface quality and accuracy of the parts. The effect of magnetic polishing on precision parts mainly includes the following aspects:
Deburring: Burrs often appear after precision parts are processed, which will affect the quality and accuracy of the parts, and even cause safety hazards. Magnetic polishing can remove these burrs and make the surface of the part smoother.
Remove blemishes: The surface of precision parts often has some blemishes, such as scratches, pits, etc., which will affect the appearance and service life of the parts. Magnetic polishing can remove these imperfections and improve the surface quality of the part.
Removal of oxide layer: Precision parts are prone to oxide layer during manufacturing and storage, which will affect the surface quality and precision of the part. Magnetic polishing can remove these oxide layers, making the surface of the part smoother and more uniform.
Improve surface quality: The surface quality of precision parts has an important impact on its service life and appearance. Magnetic polishing can improve the surface quality of parts, make the surface smoother and more uniform, and improve the wear resistance and corrosion resistance of parts.
Magnetic polishing of precision parts can remove surface burrs, defects, oxide layers and other undesirable substances, thereby improving the surface quality and precision of parts, improving the appearance and service life of parts, and improving the wear resistance and corrosion resistance of parts.