Copper chloride (CuCl₂) is a key compound widely used in catalysts, pigments, metallurgy, and fine chemical synthesis. The effective screening of this powder is critical for particle size control, removal of agglomerates, and ensuring consistency in downstream applications. Due to its powdery nature and fine granularity, traditional sieving methods often lead to mesh clogging and inefficient throughput. Enter the Ultrasonic vibrating screen—an advanced screening solution tailored for fine, flow-resistant materials like copper chloride.
Screening Efficiency Across 20, 40, and 100 Mesh Sizes
Copper chloride requires screening across various mesh sizes such as 20 mesh, 40 mesh, and 100 mesh—each serving different industrial applications. The challenge lies in keeping these fine powders flowing freely and ensuring clean separation between particle grades.
The ultrasonic vibrating screen leverages high-frequency ultrasonic vibrations to keep the mesh surface continuously active. This disrupts particle bonding, disperses agglomerates, and prevents clogging, resulting in smooth, uninterrupted sieving even at the finest mesh levels.
With this technology, users can expect a 2 to 5 times improvement in output, reaching processing capacities of 1,000 to 2,000 kg/h depending on material characteristics and mesh configuration.
Productivity and Performance, Perfectly Balanced
Beyond preventing screen blinding, the ultrasonic screen maximizes throughput without compromising precision. Its high-speed vibration allows for fine classification while maintaining stable output flow. Whether you're targeting 20 mesh bulk separation or 100 mesh fine filtration, this equipment provides the consistency and reliability manufacturers demand.
The system is also fully customizable, with options to adjust mesh size, machine diameter, outlet configuration, and material compatibility. This adaptability makes it suitable for batch or continuous processes in chemical plants, laboratories, and powder material production.
Why Choose Ultrasonic Vibration?
Prevents Mesh Clogging: Ultrasonic waves disperse fine particles and agglomerates.
Wide Mesh Compatibility: Screens copper chloride powders at 20, 40, and 100 mesh levels.
High Throughput: Processes up to 2,000 kg/h—2–5x more than traditional screening methods.
Precision Sieving: Delivers consistent particle sizes ideal for chemical and catalyst applications.
Customizable Design: Configured to match specific production line needs.
