Thin film emulsifier

Thin film emulsifierProduct Introduction

The thin film nano disperser is a new type of rotating dispersion equipment that introduces Japan's thin film rotary dispersion technology. Its special rotor design and high speed upper limit bring material processing performance far beyond traditional equipment. With excellent performance, this dispersion technology has been widely adopted by cutting-edge industries with high dispersion requirements, such as lithium-ion battery slurry dispersion and fuel cell catalyst slurry dispersion, after being introduced to the market, and has been widely recognized.

Product principle:

Unlike traditional dispersion equipment, the rotor of the thin film nano disperser adopts a cylindrical design. During operation, the rotor rotates at a linear velocity of up to 46m/s, driving the material inside the container to rotate. The high-speed rotating material is tightly attached to the inner wall of the container under the strong centrifugal force, forming a hollow rotating thin film layer. The thin film layer of the material moves relative to the stationary inner wall of the container, causing huge shear stress between particles, thus achieving the granulation treatment of the material.

Product schematic diagram

Thin film emulsifierProduct advantages

1. Controllable particle size and excellent dispersion consistency. During operation, the material will form a regular rotating thin film layer around the rotor, allowing the mechanical energy of the equipment to evenly and concentratedly act on the material, resulting in an extremely uniform material dispersion effect. And materials of different particle sizes can be easily obtained through speed regulation.

Particle size distribution adjustment processing corresponding to different rotational speeds

2. Non damaging and gentle dispersion method for particles. The dispersion effect of the equipment is due to the shear stress between particles caused by centrifugal force. Unlike common strong destructive dispersion methods, this method hardly causes damage to the surface and shape of particles, thus better maintaining material properties. 3. Improve the stability of dispersed materials, making them less prone to agglomeration and settling. Thanks to the gentle material dispersion method, the dispersed material is more likely to maintain a stable state, reducing the occurrence of agglomeration and settling phenomena. Especially suitable for de aggregation and secondary dispersion of nanomaterials.