CSCB-2GL Ultrasonic Graphene Processing Equipment-Global supplier

Main technical parameters
Single material handling capacity (L)	10L--50L(MAX)
Material properties	Liquid, aqueous or organic solution, concentration less than 20%
Cooling mixing tank capacity (L)	50L
Equipment external dimensions	Length 1230mm, width 600mm, height 1550mm
Power supply	AC220V/50Hz
Total power consumption of equipment	3000W
Setting range of working hours	1-99 hours
Main ultrasound parameters
Ultrasonic operating frequency	15KHz
Automatic frequency tracking accuracy	0.1Hz
Amplitude adjustment range	5%-100%
End diameter of tool head	38mm
Tool head material	titanium alloy
Amplitude repetition consistency	More than 95%
Input power factor	More than 75%
Ultrasonic power	2400W(MAX)
Auxiliary ultrasonic parameters
Adjustable ultrasound power	0--100%
Tool head diameter	50mm
Tool head material	titanium alloy
Input power factor	More than 75%
Amplitude repetition consistency	More than 95%
Ultrasonic transducer structure	Dual incentive push-pull (patented technology)
Ultrasonic power	2400W
Parameters of high-speed shear disperser (emulsion pump)
Rated power of motor	1.5KW
Supply voltage and frequency	AC220V，50Hz
Maximum speed	2880 revolutions per minute
Maximum flow rate	0.5T/H
Mixing motor parameters
Power supply	AC220V，50Hz
Motor power	120W
Adjustable speed range	0-300r/min

Product Description

The Xinzhi ultrasonic graphene treatment equipment adopts advanced automation control methods, with modular assembly of core components such as ultrasonic generators and transducers, and is specifically designed for the graphene preparation process. Having a single machine or multi machine online working mode, with advanced technology, high reliability, and good long-term stability, it is an essential basic component in graphene preparation. It has been successfully applied in China and has received widespread recognition and unanimous praise from users.

working principle

Using ultrasonic exfoliation method, when ultrasonic waves propagate in the liquid, high-frequency oscillations are generated in the graphite slurry, forming cavitation bubbles in the liquid phase. Due to the much larger size of graphite than cavitation bubbles, the collapse of cavitation bubbles near graphite is asymmetric, resulting in high-speed micro jets directed towards the surface of graphite, causing local damage to its surface. High frequency ultrasound generates high-frequency oscillations in graphite slurry, and due to the difference in oscillation frequency, multiple layers are formed in the container, continuously peeling graphite into graphene.

application area

Dispersion and homogenization of materials such as graphene and carbon nanotubes

Disintegration, emulsification, homogenization, and fragmentation of soil, rock samples, non-ferrous metals, rare earths, and other particulate matter

Product Features

	efficiencyhigh High work intensity, fast speed, small finished material diameter, supporting long-term work		Human centered design Split combination design, each system has independent operational capabilities
	Flexible parameters Ultrasound time, interval time, and total working time can be set arbitrarily, and ultrasound power can be adjusted		LCD displayshow LCD large screen display, all data is clear at a glance
	High quality materials The core components are made of high-performance corrosion-resistant materials to adapt to complex environments