iAlloy’s ceramic media for grinding/processing powders, minerals, pharmaceuticals, paints, inks, pigments, dyes, chemicals, and specialized nanomaterials are engineered to provide superior strength, hardness, and uniform size and form. Our materials provide excellent resistance to attrition and compressive breakdown resulting in less equipment wear, product contamination, improved finished product, and process efficiencies.
High density, high hardness, low wear loss, regular shape, impact resistance, and corrosion resistance. Mainly used in ceramic glaze, paint, zirconia silicate, aluminum oxide, quartz, silicon carbide, talc, lime carbonate, kaolin and titanium grinding.
High strength, fracture toughness, corrosion resistance and super smooth surface finish combined with high specific gravity, abrasion resistance and hardness. Mainly used in coating, paint, pigment, ceramics, ink, electronic ceramics, titanium dioxide, pesticides, Kaolin, calcium carbonate, zirconia powder, mineral material, special chemical and other industries. Also applied in Nano materials such as lithium battery, barium…
High wear-resistance and grinding efficiency. Suitable for large capacity vertical mills for dispersion of CaCO3.Widely used in high-efficiency horizontal mills and suitable for the production of high viscosity paints and pigments.
Minimal fractured fragments due to the homogenous microstructure. Superior milling efficiency due to high density and a high degree of hardness. Enhanced mill life due to the high sphericity and homogenous surfaces.Extended wear life due to the high wear resistance & high crush load. Common applications include mass production for Caco3, Kaolin, ZrSiO4, Agrochemicals and…
High density, fracture toughness and wear-resistance combined with excellent corrosion resistance. Ideal for the electronic ceramic, ink, paint, pigments, coating, dyes, food, cosmetic and pharmaceutical industries which require grinding media with high wear resistance that produces no contamination. Allows for fine particle size production due to high compression strength and narrow size distribution.
