Committed To Quality, Committed To You
Sivtek Pressure Screen operates by using air pressure to agitate particles within a sealed chamber, causing them to become airborne. As the particles are suspended, they are directed towards a sieve or screen. Finer particles pass through the mesh due to their smaller size, while larger particles are retained on top. This air-based method facilitates efficient and precise separation of materials by size, offering a gentle yet effective solution for particle size distribution analysis.
Leveraging air pressure for particle agitation and separation, this machine significantly speeds up the sieving process, especially for fine powders that are prone to clogging in traditional sieves. Its rapid processing capability enhances productivity, saving time and operational costs.
Equipped with interchangeable sieves, the machine offers unparalleled flexibility, allowing for precise separation of a wide range of particle sizes. This adaptability makes it ideal for various industries, from pharmaceuticals to food processing, ensuring that it meets diverse material specifications.
Safety features are built-in to handle potentially hazardous materials and control dust, protecting operators and the work environment. Maintenance is straightforward, with easy-to-clean components and simple sieve replacement, ensuring the machine remains in optimal condition with minimal downtime.
Designed with automation in mind, this machine can be seamlessly integrated into production lines, enhancing consistency and reducing labor requirements. Its intuitive operation simplifies processes, making it accessible for various skill levels and reducing the likelihood of human error.
Accelerates the sieving process, particularly for fine powders, enhancing throughput and productivity without sacrificing quality.
The gentle air-based sieving action preserves the integrity of delicate materials, ensuring the quality of the final product.
Engineered for reliability, requiring minimal upkeep while providing long-lasting performance in demanding environments.
