When alumina rods are used as bearings, the smooth surface can reduce the friction between the object and the ceramic surface, making the relative movement between the contact surfaces smoother, reducing wear and energy loss. This is especially important for bearing parts that require frequent contact or relative movement, which can extend their service life and improve their efficiency.
Alumina rods themselves have a certain degree of corrosion resistance. Their smooth surface can further reduce the contact area between foreign substances and the ceramic surface, reduce the erosion of corrosive media on ceramics, thereby improving the durability of ceramics in harsh environments, and are suitable for chemical, food processing, and other fields. At the same time, the smooth ceramic surface is not easy to adhere to impurities such as dirt, dust, and bacteria, making it easier to clean.
In addition, if used in the field of electronics and electrical, improving the surface finish can reduce surface resistance, enhance insulation performance, prevent current leakage and short circuit problems, and improve the reliability and safety of electronic equipment.
The polishing of alumina ceramic parts involves multiple factors, including rough processing, selecting appropriate liquid abrasives, using polishing machinery and equipment, controlling polishing speed, determining polishing time, and maintaining the stability of parts. Here are the specific steps:
1. Rough machining: Before polishing, the alumina ceramic needs to be rough machined, that is, cut with sandpaper or grinding wheel to remove burrs and rough surfaces.
2. Select liquid abrasives: Commonly used liquid abrasives for polishing alumina ceramics are alumina, silica sand, zirconium oxide, etc. When using liquid abrasives, it is necessary to select appropriate particle sizes and low to high abrasive levels to achieve a suitable polishing effect.
3. Use polishing machinery and equipment: The polishing machine can be manual or electric, usually using a rotating disc or axle type. Axle polishing equipment can provide higher polishing pressure and greater power.
4. Control the polishing speed: The polishing speed should be less than 3000 rpm. If the speed is too fast, the abrasive will not stay on the surface for enough time, and the ideal polishing effect cannot be achieved.
5 Determine the polishing time: The polishing time can be determined according to the quality and processing requirements of the alumina ceramic. In actual operation, a small number of experiments should be carried out first to determine the appropriate polishing time.
6. Maintain part stability: During the polishing process, the stability of alumina ceramics needs to be maintained to avoid surface breakage or cracks caused by excessive heating and cooling.
In addition, laser processing and ultrasonic processing can be used for grinding and polishing, or Al2O3 micro powder or diamond paste can be used for grinding and polishing. For products with high requirements for surface smoothness, glazing may be required. Diamonds, silicon carbide, etc., which are harder than alumina, can also be used for grinding from coarse to fine. Ion implantation is also a way to process the surface of materials. Ion implantation of ceramics is a supplement to the existing toughening mechanism and deep processing of prepared ceramic products.
Non-Ferrous Crucible Inc. supplies alumina ceramic products of various purities, and can be further processed by drilling, grooving, threading, and surface polishing as required. We use advanced equipment and exquisite craftsmanship to produce and undergo strict inspections to ensure that we can provide you with the highest quality ceramic products.