Graphite powder plays a vital role in high-tech industries such as energy storage, metallurgy, aerospace, and lubricants. However, due to its unique material characteristics—strong adsorption, easy agglomeration, stickiness, high static charge, high density, and ultra-fine particle size—screening graphite powder has long been a major challenge. The Ultrasonic vibrating screen is engineered to solve exactly these problems, offering a reliable and high-performance solution for fine particle separation.
High-Precision Screening at 250–350 Mesh
The most common graphite powder specifications require ultra-fine separation at 250 to 350 mesh, where even slight inconsistencies can affect product performance in applications such as battery anodes, thermal pastes, and conductive coatings. Traditional screening methods often fail due to mesh clogging and inconsistent particle flow.
The ultrasonic vibrating screen overcomes these challenges by applying high-frequency ultrasonic vibrations directly to the mesh surface. This technology prevents clogging and promotes free movement of fine particles, ensuring clean cuts, uniform particle sizes, and minimal screen downtime.
With a screening capacity of 200 to 500 kg per hour, this machine is highly efficient even when working with sticky, ultra-fine powders.
Engineered for Difficult-to-Screen Materials
Graphite powder's natural tendency to form agglomerates or stick to the screen surface due to static electricity is a major issue for conventional sieving equipment. The ultrasonic system neutralizes these problems by:
Breaking up agglomerated particles
Dispersing fine powders evenly
Minimizing screen blinding
Allowing stable, continuous screening
This ensures that the material flows smoothly across the mesh, increasing output efficiency and reducing product loss.
Key Benefits
Ideal for Ultra-Fine Materials: Specifically designed for 250–350 mesh graphite powder.
No Mesh Clogging: Ultrasonic vibrations break static bonds and prevent agglomeration.
High Throughput: Efficiently processes 200–500 kg/h, even for fine and sticky powders.
Customized Solutions Available: Tailored configurations based on your material and process needs.
Improved Product Quality: Consistent particle size distribution ensures superior end-use performance.
