Rapid mixer granulators use intensifying, rotating, and falling motions of the material to produce granules. Dry mixing is finished by adding all the components to the RMG and spinning the impeller and grinder at a very high speed.
The Rapid Mixer Granulator series is distinguished by its complex construction, cutting-edge style, and all the user- and maintenance-friendly features that create the ergonomic business characteristics essential for a wide range of applications.
The Rapid Mixer Granulator completes both dry mixing and wet granulating thanks to rudimentary configurations of the mixing process in the cylindrical fraternisation drum with curved connection to the base plate, which creates an additional unique effect. Without a changing pressure zone in the mixing product capacity, the process of mixing operates.
Advantages:
- In the same piece of equipment, mixing, massing, and granulation are all made in an insufficient amount of time.
- Gravity weighed down
- formula maintained by units
- quickly creates predicted wet granule
- Less soaking and more rapid drying
- hurriedly dry mixtures that are constant: Outstanding colour dispersion eliminates buildup of premixes by geometric movement.
Applications:
Rapid Mixer Granulators (RMG) are primarily used in the manufacture of tablets, which requires uniform fraternisation, precise granule size, and simultaneously promises a significant decrease in dispensing time.
The anticipated granulation mechanism can be separated into three stages.
Nucleation:
Due to liquid bridges and the formation of agglomerates in the vessel state, the granulation trembles when there is a link between the components.
Transition:
Nuclei can grow in one of two ways: either by forming pendular relationships with lone elements, or by forming a syndicate with two or more additional nuclei. The cradle’s anxiousness will reconfigure the collective nuclei. The presence of many tiny granules with an inclusive size dispersion characterises this stage. This point designates a suitable ending point for the granules used in the creation of capsules and tablets, provided that the dimension distribution is not excessively large.
Ball growth:
Large, globular granules are produced by further granule development, and over time, the mean element dimension of the granulating system will increase.