In the field of industrial production, traditional mixing methods often face many challenges when faced with high viscosity materials containing bubbles. Traditional mixing equipment, due to its single mixing mode and uneven power output, is difficult to fully overcome the strong intermolecular forces inside high viscosity materials when processing such materials, resulting in uneven material mixing and poor bubble removal effect. This not only affects the production efficiency of the product, but also seriously damages the quality and performance of the product.
However, SMIDA planetary centrifugal mixers can demonstrate excellent solutions in the face of this challenge. The carefully designed stirring bracket undergoes complex multidimensional movements during high-speed rotation, and based on advanced principles of fluid mechanics, can generate strong and uniformly distributed shear forces. This shear force is like a precise surgical knife, effectively breaking through the molecular cohesion inside high viscosity materials, allowing materials of different compositions to achieve deep and uniform mixing at the microscopic level.
At the same time, the unique centrifugal design of SMIDA planetary centrifugal mixer combined with vacuum pump is the key to its defoaming. During the mixing process, with the help of a precisely constructed centrifugal force field and vacuum pumping force, bubbles are endowed with sufficient separation power, gradually separated from high viscosity material systems, and efficiently discharged along specific flow channels.
For example, in the process of synthesizing high polymers in the chemical industry, raw materials often have high viscosity and are prone to trapping bubbles. SMIDA mixers can ensure the perfect mixing of various monomers, initiators, additives, and other components, while thoroughly removing bubbles, resulting in high consistency and stability of the synthesized high polymers, significantly improving product quality and performance.
In terms of electronic material preparation, SMIDA mixers also perform well for high viscosity conductive pastes, packaging materials, etc. It can finely and uniformly mix metal powders, resins, additives, etc., eliminate bubble interference, ensure the electrical performance and reliability of electronic materials, and lay a solid foundation for the manufacturing of high-end electronic products.
Compared with traditional mixing methods, SMIDA planetary centrifugal mixer has unparalleled advantages in processing high viscosity bubble materials, such as uniformity of mixing, thorough removal of bubbles, and improvement in final product quality. It is the best choice for enterprises pursuing efficient production and superior quality.