logo
Welcome to Shaanxi KeGu New Material Technology Co., Ltd
8616602956098
Found 10 products for "

grinding media ball

"
Quality Pressureless Sintered SiC Grinding Balls - High-Efficiency Corrosion Resistant Silicon Carbide Grinding Media for Mining and Ceramics factory

Pressureless Sintered SiC Grinding Balls - High-Efficiency Corrosion Resistant Silicon Carbide Grinding Media for Mining and Ceramics

Pressureless Sintered SiC Grinding Balls Ultra-durable pressureless sintered silicon carbide grinding media designed for high-efficiency grinding in mining, ceramics, and chemical applications. Product Overview Our pressureless sintered silicon carbide (SSiC) grinding balls are manufactured through roll-forming processes and sintered in vacuum furnaces at 2100-2200C. Their exceptional physicochemical properties ensure high efficiency, stability, and extended service life in

Quality 5mm-6mm  Pressureless Sintered Silicon Carbide Grinding Balls factory

5mm-6mm Pressureless Sintered Silicon Carbide Grinding Balls

5mm-6mm Pressureless Sintered Silicon Carbide Grinding Balls Silicon Carbide (SiC), a typical covalently bonded compound, offers exceptionally high hardness, superior wear resistance, excellent high-temperature mechanical properties, and outstanding chemical stability, making it a key member of advanced structural ceramic materials. SiC grinding balls are produced from high-purity SiC powders through forming, high-temperature sintering, and precision finishing. They are

Quality 4mm-5mm  Pressureless Sintered Silicon Carbide Grinding Balls factory

4mm-5mm Pressureless Sintered Silicon Carbide Grinding Balls

4mm-5mm Pressureless Sintered Silicon Carbide Grinding Balls High-performance grinding media manufactured from high-purity -SiC microcrystalline powder for precision industrial applications. Material and Physicochemical Properties Manufactured from high-purity -SiC microcrystalline powder with zero heavy metal doping and non-inert filler addition, delivering ultra-high material purity and exceptional physicochemical stability. Item Technical Index Material Composition High

Quality 8-9mm Pressureless Sintered Silicon Carbide Grinding Balls with 2000-2500 Hv Hardness, 1600°C Max Service Temperature, and 98% SiC Content factory

8-9mm Pressureless Sintered Silicon Carbide Grinding Balls with 2000-2500 Hv Hardness, 1600°C Max Service Temperature, and 98% SiC Content

8-9mm Pressureless Sintered Silicon Carbide Grinding Balls Product Overview Pressureless sintered silicon carbide grinding balls are precision ceramic grinding media produced from high-purity, ultrafine silicon carbide micropowders via high-temperature pressureless sintering at 1950-2150C in a non-oxidizing atmosphere. Diameter Range Typical Equipment Position of 7-8 mm Balls 0.5-2 mm Ultra-fine stirred mills Ideal for ultra-fine grinding 2-8 mm Stirred mills Combines low

Quality 9-10mm  Pressureless Sintered Silicon Carbide Grinding Balls factory

9-10mm Pressureless Sintered Silicon Carbide Grinding Balls

9-10mm Pressureless Sintered Silicon Carbide Grinding Balls 9-10mm Pressureless Sintered Silicon Carbide Grinding Balls are medium-to-large ceramic milling media specifically designed for drum ball mills. Engineered for coarse grinding and intermediate comminution of high-hardness, brittle materials, this size range offers optimal balance between impact momentum and specific surface area. Product Positioning These grinding balls are ideal for high-throughput applications

Quality 7-8mm  Pressureless Sintered Silicon Carbide Grinding Balls factory

7-8mm Pressureless Sintered Silicon Carbide Grinding Balls

7-8mm Pressureless Sintered Silicon Carbide Grinding Balls Product Overview 78 mm pressureless sintered silicon carbide (SiC) grinding balls are ceramic grinding media manufactured from nano-scale SiC powder via high-temperature sintering at atmospheric pressure. With their relatively low density and extremely high hardness, they are ideal grinding media for stirred mills. Manufacturing Process Process Step Key Points Description Raw material preparation Ultra-fine high

Quality 10-11mm  Pressureless Sintered Silicon Carbide Grinding Balls factory

10-11mm Pressureless Sintered Silicon Carbide Grinding Balls

10-11mm Pressureless Sintered Silicon Carbide Grinding Balls Product Overview Pressureless sintered silicon carbide (SiC) grinding balls are precision ceramic grinding media manufactured by sintering nano- or submicron SiC powders in a non-oxidising atmosphere at high temperatures. The 1011 mm size falls into the optimal range for drum (rolling) ball mills, offering an excellent combination of high hardness and moderate density. Key Size Applications: 0.52 mm: Ultra-fine

Quality 3mm-4mm  Pressureless Sintered Silicon Carbide Grinding Balls factory

3mm-4mm Pressureless Sintered Silicon Carbide Grinding Balls

34 mm Pressureless Sintered Silicon Carbide (SSiC) Grinding Balls Specifically engineered for high-intensity, high-purity grinding applications in the mining, ceramics, and chemical industries, offering exceptional durability and grinding efficiency. Product Overview These grinding balls are produced from high-purity, submicron silicon carbide powder using a rollpressing technique, followed by pressureless sintering in a vacuum furnace at 21002200C. The resulting SSiC

Quality High Alpha Phase Content (>95%) Low Sodium (<0.08%) Calcined Alumina for Fine Ceramics with Precisely Controlled Particle Size factory

High Alpha Phase Content (>95%) Low Sodium (<0.08%) Calcined Alumina for Fine Ceramics with Precisely Controlled Particle Size

Premium Calcined Alumina for Fine Ceramics High-performance calcined alumina featuring high alpha phase content (>95%), low sodium (95%): Ensures optimal sintering behavior and final ceramic density, leading to superior mechanical and thermal properties. Low Alkali Content (NaO 0.08%): Minimizes the risk of glass phase formation and grain growth anomalies during firing, resulting in a more predictable and stable microstructure. Exceptional Chemical Purity (AlO 99.7%):

Previous Next
Previous
Page 1 of 2
Next