Ultrasonic graphene disperser

Principle of Ultrasonic Graphene Dispersion

Ultrasonic graphene dispersion equipment utilizes the cavitation effect of ultrasound to disperse and aggregate particles. It involves placing the particle suspension (liquid) to be processed into an acoustic field and treating it with appropriate ultrasonic amplitude. Under additional effects such as cavitation, high temperature, high pressure, microjet, and strong vibration, the distance between molecules will continue to increase, ultimately leading to molecular fragmentation and the formation of single-molecule structures. This product has a particularly good effect on dispersing nanomaterials such as carbon nanotubes, graphene, silica, etc.