Working Principle of High Frequency Mineral Screen. The high frequency can destroy the tensile force on the pulp surface and prevent high speed oscillation of fine material on the screening surface, enhancing separation effect of high density useful minerals and increasing the contact probability of material less fine and the mesh.
Working Principle The principle of high frequency screen is different from that of ordinary screening equipment. The high frequency screen adopts high frequency, which destroys the tension of pulp surface and the high speed oscillation of fine grain material on the screen surface, and accelerates the action of useful minerals and separation of large density (specific ...
Working Principle of High Frequency Mineral Screen The high frequency can destroy the tensile force on the pulp surface and prevent high speed oscillation of fine material on the screening surface, enhancing separation effect of high density useful minerals and increasing the contact probability of material less fine and the mesh.
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Different from the working principle of common screening equipment, high frequency screen uses high frequency, which on the one hand breaks the tension of the ore pulp surface, and on the other hand, the fine particles vibrate with high speed on the screen surface, thus accelerating the separation of big density and useful minerals and ...
High frequency screen consists of vibration exciter, ore pulp distributor, screen frame, machine frame, suspension springs and sieve, etc. This series screen is always used in processing minerals such as ferrous metals including hematite magnet and nonferrous metals including lead, zinc, gold and silver, etc.
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High Frequency Screen,High Frequency Mineral Screen,High ...
Working Principle of High Frequency Mineral Screen. The high frequency can destroy the tensile force on the pulp surface and prevent high speed oscillation of fine material on the screening surface, enhancing separation effect of high density useful minerals and increasing the contact probability of material less fine and the mesh.