Resources

Mixing Technology Insights

Mixing Technology Insights offer a brief look into Ross' products, process expertise and market strengths. The reports delve into how the equipment can be used to improve your process and to add to your bottom line. Ross strives to provide its customers with up to date information covering new technology in the industrial mixing and blending industry.

Select a specific product, process or market to view a list of related Insights:

  • Recommended Mixing Equipment for High Viscosity Coatings
    Depending on their method of application and intended use, certain coatings are produced as high viscosity fluids. Controlling rheology is one way of achieving desired coating performance in terms of sag and spatter resistance, flow leveling, gloss, film formation and other attributes.
  • Recommended Mixing Equipment for Specialty Inks
    Specialty inks have become a staple in modern packaging, lending added appeal, security and functionality to products in ways that traditional inks could not achieve.
  • Recommended Mixing Equipment for Concentrated Titanium Dioxide Dispersions
    Mixing titanium dioxide powders into liquid, especially in large quantities, requires sufficient shear in order to achieve optimal functionality.
  • Recommended Mixing Equipment for Pigment Dispersions
    The costly and time-consuming milling step is often a production bottleneck which in the past has forced manufacturers to add more milling equipment to handle multiple passes or simply keep up with volume demands.
  • Recommended Mixing Equipment for Carbon Black Dispersions
    Used in paints, inks, coatings, adhesives, sealants, plastics, electronics and specialty products, carbon black dispersions are typically prepared using high shear mixing or milling equipment to effectively break down agglomerates.
  • Rethink your reactor design.
    Chemical processes accomplished in conventional stirred tank reactors can be optimized by switching to a multiagitator system capable of high speed dispersion or dissolution, as well as superior heat transfer and efficient turnover even at elevated viscosities.
  • Eliminate floating powders
    Consider high-speed subsurface powder injection to eliminate floating powders and stubborn lumps in your mixing operation. Technologies such as the Ross Solids/Liquid Injection Manifold (SLIM) are highly efficient at maximizing yield as a result of faster and more complete solid dispersion.
  • Ultra-high shear mixing of nanoparticles
    Batch and inline ultra-high shear rotor/stator mixers can effectively disperse nanoparticles into liquid. Advantages include short processing times and volume flexibility, as well as easier maintenance and lower capital cost compared to traditional milling equipment and high pressure homogenizers.
  • Dust-free mixing of pigments into liquid
    A common issue in dispersing pigments into liquid is dust generation. Charging solids into an open, top-agitated vessel inherently causes lightweight powders to become airborne. Using a high shear mixer equipped for sub-surface powder induction helps minimize dusting, maximize yield, improve dispersion quality and accelerate production.
  • Mixing highly filled compounds
    Obtaining a good dispersion of fillers into a mixture is critical to end product quality. Highly filled, viscous compounds can be successfully prepared in multi-shaft or planetary mixers.
  • Tips to improve your batch rotor/stator mixing process
    The rotor/stator mixer is a versatile processing tool used throughout the process industries. This bulletin presents some tips for improving rotor/stator mixing performance.
  • Move your media mill process to an ultra-high shear mixer.
    Specially designed rotor/stator mixers achieve ultra-high shear conditions which often result in extremely fine dispersions of pigments and other raw materials. More than just an ordinary ‘pre-mixer’, an ultra-high shear rotor/stator device can produce results comparable to one or two passes through a media mill.
  • Best practices for safe and efficient three roll milling
    The three roll mill remains to be one of the best methods for preparing very fine particle dispersions. This bulletin discusses some best practices to help users operate the three roll mill safely and efficiently.
  • Maximize pigment dispersion efficiency during pre-mixing
    Processing of pigments can be optimized by choosing an efficient pre-mixer that can disperse agglomerates as close as possible to the desired specifications. This leads to a reduction of mill passes, often the most time-consuming step of the pigment dispersion process. In some applications, specially designed rotor/stator pre-mixers can eliminate milling entirely.
  • High speed mixing: saw-tooth dispersers vs. rotor/stator mixers
    The saw-tooth disperser and rotor/stator mixer are two of the most widely used high speed mixers yet many are unaware of the differences in their utility and operating capacities. Knowing the unique attributes of these devices is important in mixer selection and process optimization.
  • Run your rotor/stator mixer at maximum speed to optimize particle size reduction.
    Generally, the maximum speed setting of a rotor/stator mixer provides the optimal mixing results in terms of particle or droplet size reduction. Once an equilibrium size distribution is reached, subsequent passes through the rotor/stator give diminishing returns. For applications that are processed at the maximum speed of a traditional rotor/stator mixer but still fall short of the desired particle or droplet size, a move to higher energy devices, such as ultra-high shear mixers, is recommended.
  • Eductor-less solids induction systems offer improved processing reliability
    In traditional eductor-based powder induction systems, balancing the performance of the main components -- pump, eductor and mixer – often requires a skilled operator and can prove to be difficult. A high speed powder injection unit utilizing just one device to perform all three functions is simpler to use and offers a more reliable performance.