
Ultrasonic Dispersion Equipment
Compared with conventional dispersion methods, ultrasonic dispersion technology has high efficiency extraction effect and short extraction time. By the way, there are others applications in the manufacture of graphene, nanomaterials, oils and paints etc.
Ultrasonic dispersion equipment mainly originates from acoustic cavitation - the formation, oscillation, growth, contraction, and collapse of cavitations in liquids, physical and chemical changes caused by machines
Main characteristics of ultrasonic dispersion equipment
1. Equipment upgrade is simple and there is no need to change the customer's existing production equipment and process flow;
2. Centralized design, high energy density, output, and efficiency can be significantly improved, and the ultrasonic energy conversion rate is as high as over 80%;
3. Adopt ultrasonic CNC drive power supply and full digital circuit control;
4. Real-time monitoring of frequency and power, continuous adjustable power, automatic alarm protection function, easy operation;
5. Easy installation, through standard flange docking installation, reducing costs and saving energy consumption;
6. The usage plan can be customized according to customer requirements, or multiple sets can be used in combination to increase the radiation area and increase output.
Specification of Ultrasonic Dispersion Equipment
| Model | Ultrasonic frequency | Ultrasonic power | Standard tool head 1/1 | Ultrasonic generator model | Ultrasonic transducer model | Dispersed capacity | duty cycle | Protective function |
| CQ28-P800 | 28KHZ±1KHZ | ≤500W | T28-D10L135 | 2900SP-CQ | JYD-3828-4P8-AU | ≤6L | 10%-100% | Overtemperature/overpower overtime/overload |
| CQ28-P1200 | 20KHZ±0.5KHZ | ≤600W | T28-D20L187 | 2900SP-CQ | JYD-5020-6P4-AU | ≤10L | 10%-100% | Overtemperature/overpower overtime/overload |
| CQ20-P2000 | 20KHZ±0.5KHZ | ≤1200W | T20-D30L490 | 2900SP-CQ | JYD-5020-4P4-AU | ≤30L | 10%-100% | Overtemperature/overpower overtime/overload |
| CQ20-P2600 | 20KHZ±0.5KHZ | ≤2000W | T20-D30L490 | 2900SP-CQ | JYD-5020-6P4-AU | ≤50L | 10%-100% | Overtemperature/overpower overtime/overload |

FAQ:
Q: How does ultrasonic dispersion equipment disperse graphene materials?
Graphene has been widely used in the field of composites because of its excellent material properties, such as enhancing the strength of composites. However, it is difficult to peel single or multilayer graphene from graphite. Traditional redox methods require very strong oxidants and reductants. Graphene obtained in this case is usually defective.
By using ultrasonic vibration with a high vibration of 20000 times per second, graphene which with high conductivity, good dispersion, and high concentration. Because the ultrasonic machining process can be controlled, the chemical and crystal structures of graphene obtained by ultrasonic dispersion will not be destroyed.
Advantages: high dispersion efficiency; The dispersed particles are finer and more uniform; Graphene is highly stable; Energy saving and environmental protection.
Q: Precautions tips for Ultrasonic Dispersion Equipment
1. The equipment has been adjusted to the best condition before leaving the factory. Please do not disassemble the vibrator shell or the driving power supply shell during use.
2. The equipment must be kept clean during use to prevent dust and water vapor from entering.
3. This equipment must not be operated without load for a long time, otherwise it may easily cause damage to the equipment.
4. Before using the equipment, please read the operating methods and precautions in the manual in detail.
Send Inquiry








