In the rubber and plastics industry, the purity and particle size of additives directly affect product performance and consistency. To meet the high standards of modern production, accurate and efficient screening of powdered additives is essential. The Vertical airflow sieve is a specialized screening solution designed to remove impurities and ensure precise particle classification of rubber additives—without compromising throughput or quality.
High-Precision Screening with No Cross-Contamination
Unlike traditional vibratory sieving equipment, the Vertical Airflow Sieve operates using a cylindrical screening structure and a high-speed airflow system that propels material through the mesh. This mechanism eliminates the risk of mixed particle sizes and ensures strictly accurate separation with no cross-contamination. Whether you're working with ultra-fine powders or standard rubber additives, the machine delivers precise particle control from 80 to 600 mesh.
This is especially important for rubber additives that must be blended consistently with base polymers to achieve desired elasticity, color, chemical resistance, or processing characteristics.
Engineered for Ultra-Fine Powder Efficiency
Rubber additives often have cohesive or fibrous properties that make them difficult to screen using conventional sieves. The Vertical Airflow Sieve excels in handling these materials by using airflow-induced dispersion, allowing powders to be screened without agglomeration or clogging.
Additionally, the machine is highly efficient, capable of screening large batches in a short amount of time, making it ideal for high-throughput environments.
Key Features and Advantages
Precise Fine Screening: Accurately separates particles between 80–600 mesh.
No Mixing of Grades: Guarantees purity with zero blending of over- and under-sized material.
Ideal for Powdered Additives: Designed to handle fine, lightweight materials with ease.
Continuous Operation: Built for non-stop production lines with low maintenance needs.
Customizable Design: Can be tailored to specific additive types and process flows.
