Dry Bead Mill

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GFM-5L Dry Bead Mill

Principles of Mechanical Grinding

The ceramic rotor spins at high speed to drive the zirconia beads into motion. Through intense collisions between the zirconia beads and the material, large particles are broken down. Subsequently, the friction between the zirconia beads and the material, as well as between the material and the chamber, further refines the material to the target particle size.

Principles of Precise Grading

The classier utilizes specific airflow and mechanical structures to screen materials based on particle size and density differences, ensuring qualified particles enter the collection stage and achieving precise particle size control.

Principle of Efficient Collection

The combination of a cyclone collector and dust collector is employed, where the cyclone collector recovers bulk material through centrifugal force, while the dust collector captures fine powder via filtration, achieving waste-free material recovery in Dry Bead Mill applications.

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Industry application

New energy cathode materials

New energy anode materials

Carbon Materials

Equipment advantage

Dry Grinding Mill provides more uniform grinding force, ensuring stable fine grinding effect.

Real-time finess control, with an extremely narrow particle size distribution

Enhanced by fluidized bed technology achieving higher classification efficiency

Low-cost · Submicron · Zero-waste

Wear-resistant · Temperature-stable · Controllable

Integrated Grinding and Classification

More uniform grinding force stable fine grinding effect

The Nano Grinding or Nano Milling process utilizes a horizontal layout, enabling the grinding media to fully contact the material under the dual action of gravity and the stirring shaft.

Real-time finess control, with an extremely narrow particle size distribution

The classifier wheel operates synchronously with the grinding process. Based on centrifugal force, oversized particles are separated in real time and flung back into the grinding chamber for secondary grinding, while qualified particles pass through the classification gap into the collection system.

Enhanced by fluidized bed technology achieving higher classification effciency

Innovatively employing TSD classification technology, this system leverages fluidized bed air distribution to minimize pressure drop during the classification process, preventing material accumulation and blockage within the classification chamber.

Technical indicator

0-720r/min

Spindle Speed

1-100kg/h

Production capacity

6.6-9.9KG

Media filling capacity

2-8mm

Grinding media diameter

0-6m/s

Stirrer shaft linear speed

≤1 mm

Feed particle size

1-5μ m

Discharge particle size

240m³/h

Air flow

2Foot

Feed inlet/outlet size

3-6m³/h

Cooling water flow

Low-cost · Submicron · Zero-waste

Combining Affordability with Precision

Breaking through the high-energy consumption limitations of traditional air-jet mills, achieving low-cost mass production of submicron-level grinding

Zero-loss Design

Highly wear-resistant components + residue-free design.

Intelligent Control

Fully automatic adjustment of rotational speed, airflow and classifier parameters.

Wear-resistant · Temperature-stable · Controllable

Ceramic Pin-type Structure

Enhance the wear resistance of the rotor.

Silicon Carbide Cylinder

The outer layer circulates cooling water to control grinding temperature, ensuring the grinding temperature range.

Power Classifier

The particle size range of the material can be controlled.

Optional rotors

The grinding system can choose turbine and rod pin according to the requirements:

Turbine rotor

Providing more gentle and meticulous grinding effect can effectively prevent excessive material dispersion and improve TurboMax patented Turbine(Turbo) structure grinding quality and accuracy

Rod pin rotor

The rod-pin rotor structure has high linear velocity, which can form continuous strong grinding in the grinding（Chamber), and the impact and grinding effect on the material is more intense

Optional materials

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