Colloid Mill Machine
The AURUS Colloid Mill is a high-speed grinding and emulsifying machine designed to achieve ultrafine particle size reduction and create stable emulsions. Our mill works on the proven rotor-stator principle. A liquid or paste is pushed through the narrow, adjustable gap between a stationary stator and a powerful, fast-spinning rotor. These mechanical forces grind, emulsify, disperse, and homogenize the material effectively. The AURUS Colloid Mill is essential across various industries that require consistent product uniformity, including the pharmaceutical, food, and cosmetic sectors.
AURUS offers a colloid mill that is a good type of equipment for reducing the particle size of solids in liquid suspension. Our product is also used to reduce the droplet size of a liquid suspended in another liquid. We achieve this by applying high levels of hydraulic shear to the process liquid, which helps increase the stability of suspensions and emulsions. Our colloid mill is used in many applications like superfine grinding, emulsifying, homogenizing, mixing, dispersing, and extracting ointments, liquids, and other thick products in industries such as cosmetics and pharmaceuticals.
What is Colloid Mill Machine?
As the product moves through the critical gap formed by the metal-toothed surfaces of the stator and rotor, it experiences extreme mechanical forces, including shearing, rubbing, and cutting. For customers who need an even finer particle size or greater emulsion stability, the product can be easily recalculated. This process uses a three-way cock and a recirculation pipe assembly, allowing users to pass the material through the shearing mechanism multiple times.
The AURUS Colloid Mill is made from high-quality stainless steel materials, available in full stainless steel or semi-stainless configurations. This ensures durability, corrosion resistance, and non-toxicity, making it perfect for pharmaceutical and food applications.
Key Features of the AURUS Colloid Mill Machine
- Superior Processing Performance
- Ultrafine Particle Reduction
- Design and Construction
- Material of Construction (MOC)
- Operational Control and Safety
