Pharmaceutical Mixers

Pharmaceutical Mixing Resources

Providing the most insight and information towards our pharmaceutical mixers and blenders, our Resources section is designed to help customers make the right choices when selecting the proper equipment for their next application.

Multi Shaft Mixers Video

Used throughout nearly every process industry, ROSS Multi-Shaft Mixers are robust and versatile. Available in a variety of configurations, as either dual shaft mixers or triple shaft mixers depending on batch characteristics, Multi-Shaft Mixers accommodate a flexible range of shear input and viscosities up to several hundred thousand centipoise. The mixer's basic design consists of two or more independently driven agitators working in tandem to ensure fine solids dispersion, efficient turnover and uniform heating/cooling.

Featured Reports

White Papers

Mixing Technologies in the Cannabis & CBD Industries

 The goal of this white paper is to give an overview of the mixing technologies that are available to support the fast-growing, highly competitive, and rapidly changing cannabis and CBD industries, as well as to highlight new equipment designs that are increasingly being recognized as potential solutions to current mixing challenges.

Mixer and Blender Options for Vacuum Drying Requirements

 Throughout the industries, more and more manufacturers are turning to agitated vacuum systems to improve their drying processes. Three common mixing technologies are employed in various vacuum drying requirements: the Vertical Blender/Dryer, Cylindrical Blender/Dryer and Double Planetary Mixer. This white paper presents the operating theory, advantages and sample applications of each design. The recommendations discussed here are based on ROSS’s experience as a worldwide mixing and drying equipment supplier for over 170 years.

Understanding Surfactants and New Methods of Dispersing

 The only common finding is that surfactants in a fluid system affect several of its properties, both, in their equilibrium values and in their dynamic response to changes, as well as the physical and rheological properties of the system’s interfaces.
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