INNOVACERA | technical ceramic solutions

  In the Zirconia ceramic family, there is a material that can endure the high temperature of 2200 degrees centigrade. We call it Magnesium Stabilized Zirconia ceramic. It is a refractory material. Although 95% of the composition is zirconium oxide, its performance is quite different from the white zirconia ceramic(Y2O3 partially stabilized zirconia ceramic).     From its appearance, it is yellow in color and with porosity. We have two kinds of magnesium-stabilized zirconia ceramic. One with low porosity its a density is ≤52g/cm3, one with high porosity its a density a little higher, 5.4-5.6g/m3. But their main composition is almost the same. They can be used in air, vacuum, or protective atmosphere environments. Following is the detail of the material data sheet.   Property Item Units MSZ-L MSZ-H Composition ZrO2 % ≥95 ≥95 Al2O3 % ≤0.2 ≤0.2 SiO2 % ≤0.4 ≤0.4 MgO % ≤2.9 ≤2.9 Fe2O3 % ≤0.1 ≤0.1 TiO2 % ≤0.1 ≤0.1 Physical Color Yellow Yellow Density g/cm3 ≤5.2 ≤5.4-5.6 Po...

  Boron nitride atomizer nozzles   for powder metal atomization play a crucial role in the atomization process. These nozzles are responsible for converting molten metal into fine powder particles, which are then used in various industries such as automotive, aerospace, and electronics. There are different types of boron nitride atomizer nozzles used in powder metal atomization, including gas atomizers and water atomizers. Gas atomizers use high-pressure gas to disintegrate a molten metal stream into tiny droplets, which solidify into powder particles as they cool down. Water atomizers, on the other hand, use water jets to break up the molten metal stream into powder particles.   The design and construction of boron nitride atomizer nozzles are critical for ensuring efficient and effective atomization. Some key factors to consider in boron nitride atomizer nozzle design include: Nozzle geometry:  The shape and size of the nozzle play a role in determining the droplet...