Feb 24, 2021 Leave a message

The Characteristics Of Ultrasonic Graphene Dispersion Machine


The characteristics of ultrasonic graphene dispersion machine


Ultrasonic graphene disperser uses the cavitation of ultrasonic waves to separate and agglomerate particles. It is to put the particles to be processed into the super-strong sound field and deal with them with proper ultrasonic amplitude. Under the additive effects of cavitation, high temperature, high pressure, micro jets, strong vibration, etc., the distance between molecules will continue to increase, causing the molecules to break and form a single molecular structure. This product is especially effective for dispersing nanomaterials (such as carbon nanotubes, graphene, silicon dioxide, etc.).

 

Equipment characteristics of ultrasonic graphene dispersion machine:

1. Adopt high-power focused ultrasonic transducer, which has the characteristics of large amplitude and high conversion efficiency.

2. The large-amplitude ultrasonic wave is directly delivered to the dispersion medium through the probe, and the dispersion result is better, which greatly changes the method of the ball mill used in the past, and it takes a lot of time to disperse.

3. The probe is made of titanium alloy material, which is resistant to acid and alkali, so it can be used in systems of other materials.

4. Simple operation and self-cleaning function.

5. Batch dispersion of materials can be processed continuously, making the application of materials to the market.


The application of the ultrasonic graphene disperser in the preparation of stone ene is mainly in the solvent hot intercalation method and the redox method. These two methods are relatively simple to operate, and the cost is lower than other preparation methods. It is a large-scale preparation of nanoscale The main production method used for olefin powder. Because ultrasonic waves can produce cavitation in the liquid and form physical phenomena such as micro-jets and vibrations, microscopically, it has a high-speed stirring, crushing, separation, and dispersion effect on suspended particles in the liquid. In a nutshell, ultrasound can accelerate the reaction and catalyze the reaction in the solution for preparing petrene.


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