Vacuum film defoaming system
Defoaming equipment is a mixing equipment that mixes basic materials and discharges bubbles. It is mainly used in nano-powder materials, fine chemical materials, silica gel, silver paste, aluminium paste, adhesive, ink, silver nanoparticles, conductive silver glue, insulating glue, printing conductive ink and anisotropic conductive glue, conductive paste for thin film solar cells, P conductive ink, cosmetics, electricity. Sub-components, etc.
The separating device designed by this series of machines has a stepless speed regulating turntable and a diversion head for material rotation. Under the high vacuum condition, the material is pressed to the separating device to rotate under the external pressure and vacuum. Under the centrifugal force of the rotating disc, the film is evenly rotated and extruded. Under the condition of high pressure difference, the bubble expands rapidly, escapes or breaks down. This series of products can maximize the demulsification effect of various slurries in the mixing process.
Vacuum film defoaming system features:
Uniform stirring and non-stratification of mixing can be achieved by both rotation and rotation.
Using a strong centrifugal force of about 400 G, the mixture is evenly dispersed and sub-micron bubbles are removed at the same time.
No screw blades, no cleaning, no pollution of raw materials;
Non-destructive material shape (fibrous material and powder);
The product specifications are complete enough to cope with every link from research and development to production.
The mixing of most materials, especially those with high viscosity, can greatly improve their efficiency.
Human-computer interaction mode, easy to use, extremely simple operation.
Continuous production can be achieved.
Effectiveness of revolution - At revolution, the material is subjected to centrifugal force in the cup, and the bubbles are separated by the gravity separation movement along the vector direction and the upward driving effect of material self-weight.
Rotation Efficiency - Rotating the material while putting it into the material container, so that the material itself produces strong eddy fluidity, forming the effect of centrifugal vector synthesis force, the shear force between the material and the wall, and the internal molecules of the material produce mutual dispersion effect.