MANUFACTURING


Adopting a planetary centrifugal mixer can remove steps from a process compared with manual contact mixing processes, saving time and reducing labour costs. Material can be simultaneously mixed, dispersed and degassed with minimal operator intervention, freeing up team members for more valuable work elsewhere. The technology can reduce process waste by reducing the risk of contamination, while the removed need for decanting reduces waste left in containers. The ability to repeat the process can reduce variation due to operator skill and improve product formulation.


Planetary centrifugal mixing is effective at controlling shear and is usually quite benign to the products. Additionally, unlike machines that rely on the insertion of paddles or impellers into the material, no air is introduced; in fact, there is a tendency to remove it.


Process traceability Planetary centrifugal mixers enable precise and repeatable control of the mixing process; process variables are programmable. Some models offer data logging and PC connectivity, giving operators information on RPM, mode and which recipe is being used. Mixers with communication functions can provide remote control and traceability functions; the user can start/stop operation and report abnormal stop information.


Manufacturers can collect data from their mixer to see the exact RPM in near real-time and validate that the correct program was used for a particular batch, useful for quality assurance and as a development tool.


Selecting a mixer


There are various planetary centrifugal mixers available, some that purely mix, some that mix and degas, and some that degas to a high level under vacuum. Machine selection is normally based on two considerations, batch size and the required level of air removal. While many manufacturers opt for a larger mixer for higher volume applications, others operate multiple smaller machines to avoid a large upfront investment, prevent a single point of  Some manufacturers may need to guarantee that all air is removed from a particular mixture. In this case, manufacturers can select a machine that mixes under vacuum, which can remove invisible micro bubbles.


 Due to the increased demand for mobile,


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Rotation is typically at ~1,000s of RPM,


generating mixing forces of about 400 G. Users mix in their own containers with sizes ranging from 12 ml to 20 litre, to mix, disperse and degas materials in seconds to minutes.


rechargeable batteries with ever higher energy and power densities, intensive research is being conducted into modifying electrode structures to increase the active mass loading.


One possible approach is a


three-dimensional structuring of electrodes using a cellular structure, for example, a metal foam, which acts as a current collector. Due to the cellular structure, an electrically conductive structure is present within the active mass. This can increase the electrical conductivity of the electrode, while increasing the integrity of the active mass layer. This should make it possible to increase the electrode thickness while reducing the amount of inactive components. In the production of foam electrodes with the highest possible active mass loading,  an electrode slurry is a decisive process  large extent on the viscosity of the electrode slurry.


To determine the optimum slurry


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composition for a given solids composition, for example 84 wt. percent NMC, 8 wt. percent conductive carbon black + graphite, 8 wt. percent binder, three different cathode slurries with different solids contents were prepared by a customer using a planetary centrifugal mixer via a multi-stage process. With the Thinky ARM-310 mixer, various slurries with different compositions were produced in a very short time and a suitable  Another example comes from Ed Harrison during his time at the University of Birmingham as a student. As part of an eight week placement, he produced a poster on “Making and Testing Cathode Materials – Preparation and characterisation of advanced coatings on cathode materials.” Harrison said, “The primary step to making a cathode coating is to mix all the required components. First the active material (NMC/ LFP) and carbon black are mixed using a THINKY Mixer at 1,300 RMP, to make them as homogenous as possible before any solutions are added. Then binder is added, for which I used 8 percent PVDF in NMP. The last step of the mixing process involves adding the solvent, for example, NMP. This is to decrease the solid content of the slurry, ensuring all powders are dissolved and to reach a suitable viscosity to be used when coating.”


A good supplier can address your challenge by doing laboratory evaluations and demonstrations with your materials. Based on previous experience, it can advise on the best mixer for your process. Intertronics offers the full range of THINKY planetary centrifugal mixers. For more information, visit our website or call 01865 842842 to speak to a member of the team.


DECEMBER/JANUARY 2025 | ELECTRONICS FOR ENGINEERS 27


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