Overview
HUXI HR-500DG/18G High Shear Homogeneous Mulser is a handheld experimental equipment, which is flexible and convenient in one. Good motor selection, stable operation, low noise, can operate for a long time, supports a variety of working head selection and vacuum operation, to meet the high requirements of dispersion, emulsification and homogenization experiments.
Features
1. Select a good motor for stable operation, lower noise, and safe and reliable design.
2. All parts of the working head in contact with the material are made of good stainless steel, with good corrosion resistance;
3. The working head adopts a coupling to connect with the drive motor, which is easy and flexible to disassemble and assemble;
4. The speed control base adopts stepless governor, which is convenient for speed regulation and stable operation.
Principle
High shear homogeneity Mulser drives the working head to swirl/spin at high speed by driving the motor to achieve dispersion, emulsification and homogeneity of the material. Rotation speed is controlled by a stepless governor, and the working head generates shear force at high speed to ensure uniform mixing of materials.
Applications
Dispersion, emulsification, homogenization
Steps
1. Connect the power supply and ensure that the voltage meets the requirements of AC220V.
2. Select the appropriate working head as required and install it.
3. Infiltrate the working head into the liquid, and the height is controlled within the range of 30/120mm.
4. Rotation speed and timing are set through the combined control knob;
5. Start the equipment for homogeneous emulsification operation;
6. After the operation is completed, turn off the power and clean the work head.
Notice
• Ensure that Ambient Temperature does not exceed 40 ℃, relative humidity ≤ 80%;
• Work head Max. Torque is 17N.cm, do not overload;
• Standard Processing capacity is 50~ 1500ml, the maximum processing viscosity does not exceed 2000MPa · s;
The operating temperature shall not exceed 120 ° C.
• Pay attention to safety during operation and avoid long-term exposure to high-noise environments.
