White Refractory Ceramic Ball 250μM-425μM B30 Ceramic Bead Blasting Media
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xFeatures | Spherical Dust Free | Name | Zirconium Silicate Beads |
---|---|---|---|
Size | 250-425 | SiO2 | 30%-35% |
Mohs Hardness | 7.5 | Shape | Ball |
Survice Life | Long | ||
Highlight | White Refractory Ceramic Ball,Refractory Ceramic Ball 250μM,B30 Ceramic Bead Blasting Media |
Medical Industry B30 Zirconium Silicate Ball 32% Glass Phase
DESCRIPTION
Zirconium Silicate Ball B40 is zirconia-based blasting beads with high hardness and surface smoothness. As one recyclable sandblasting media, it is suitable for the blasting, finishing, cleaning, deburring, surface pretreatment in the process of metal parts production and maintenance.
Ziroconium Silicate Ball B30 is also called ceramic media, ceramic bead blasting media, or ceramic blasting beads.It is of high hardness, good elasticity, high gloss and high impact strength. Ceramic blasting beadsmainly used for blast cleaning, debluring, removing oxice layers of castings and forging parts, alsofor metal surface finishing, and pretreatment before coating and plating.
ADVANTAGES
1). Ceramic sand has a specific microstructure composed of crystallized zirconia (ZrO2) embedded in a glass matrix.
①.High hardness which can effectively transfer the energy of impact point.
②. High toughness to ensure the stability of the medium through hundreds of sandblasting cycles.
③. Does not contaminate the treated surface.
④.Very little dust is produced to ensure production efficiency and limit reduce tear on the sandblasting equipment.
2). Production uses a controlled process and rigorous quality control using advanced technologies such as particle size laser diffraction and morphological image inspection.
APPLICATION
Zirconium Silicate Ball B30 can produce a uniform and uneven rough surface on the cleaned surface to facilitate mechanical bonding of the coating. Using clean compressed air to drive clean ceramic sand to spray on the surface of the workpiece can generate compressive stress on the surface of the substrate, remove the surface oxide film, and cause lattice distortion of part of the surface metal, which is conducive to the physical bonding of the coating. The substrate metal can be sandblasted to obtain a clean, rough and highly reactive surface. This is an important preprocessing method.
Shot peening of aviation parts: used to improve the fatigue resistance of carbon steel, titanium alloy, aluminum alloy and other
aviation mechanical parts and eliminate surface stress. It can be used for surface strengthening of aircraft wings, aeroengine turbine blades, turbine discs, gears and landing gear.