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⚠ Caution
Store the product in a dry and clean environment. The working temperature
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should not exceed 40°C, and prevent foreign objects from entering the
device.
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If operating the product in wet conditions, ensure it is equipped with electric
leakage protection.
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Voltage fluctuations may cause unstable speeds. Use a regulated power
supply device to ensure consistent performance.
Avoid using the machine in highly corrosive environments. If use in such
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conditions is unavoidable, ensure proper protective measures are taken.
If the agitating medium is volatile or flammable, be cautious of potential
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electric sparks, which could lead to explosions or fires.
Shear emulsifying principle
The experimental device is driven by a high-speed motor with a shear emulsifying
head. The rotor, working in alignment with the first stator, spins at high speed to
create a circular tangent of high-frequency, strong velocity, and angular motion. This
generates integrated kinetic energy, promoting the movement of experimental
material from the bottom of the container into the rotor area.
With the resulting centrifugal force, the material is expelled through the stator. In the
narrow gap between the stator and rotor, strong, reciprocating hydraulic shear and
friction are produced. The experimental material undergoes iterative work, with up to
tens of thousands of cuts, tears, and impacts, achieving the effect of shear
emulsification. This process is about 1,000 times more effective than standard mixing
methods.
The laboratory shear emulsifying machine is suitable for biotechnology organizations,
sample preparation in pharmaceutical research, enzymatic treatments in the food
industry, cosmetics manufacturing, and various applications in the paint and
petrochemical industries. It can handle liquid-liquid and liquid-solid phases for
different experimental needs.
Different head and stator configurations can be used to meet a wide variety of
experimental requirements, making the machine versatile for emulsification,
homogenization, suspension of solids, aggregation, and dissolution.
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