Top Suppliers 2000w Ultrasonic Homogenizer Make Graphene - 20Khz ultrasonic carbon nanotube dispersion machine – JH


Product Detail

Product Tags

Related Video

Feedback (2)

Our well-equipped facilities and great excellent command throughout all stages of generation enables us to guarantee total customer fulfillment for 20k 3000w Ultrasonic Homogenizer For Dispersion Graphene, Disruptor For Graphene Material Dispersing, Ultrasonic Probe Dispersion Equipment, Since establishment within the early 1990s, now we have arrange our sale network in USA, Germany, Asia, and several Middle Eastern countries. We intention to get a top class supplier for worldwide OEM and aftermarket!
Top Suppliers 2000w Ultrasonic Homogenizer Make Graphene - 20Khz ultrasonic carbon nanotube dispersion machine – JH Detail:

Carbonnanotubes are strong and flexible but very cohesive. They are difficult to disperse into liquids, such as water, ethanol, oil, polymer or epoxy resin. Ultrasound is an effective method to obtain discrete – single-dispersed – carbonnanotubes.
Carbonnanotubes (CNT) are used in adhesives, coatings and polymers and as electrically conductive fillers in plastics to dissipate static charges in electrical equipment and in electrostatically paintable automobile body panels. By the use of nanotubes, polymers can be made more resistant against temperatures, harsh chemicals, corrosive environments, extreme pressures and abrasion.

SPECIFICATIONS:

MODEL JH-ZS30 JH-ZS50 JH-ZS100 JH-ZS200
Frequency 20Khz 20Khz 20Khz 20Khz
Power 3.0Kw 3.0Kw 3.0Kw 3.0Kw
Input voltage 110/220/380,50/60Hz
Processing capacity 30L 50L 100L 200L
Amplitude 10~100μm
Cavitation intensity 1~4.5w/cm2
Temperature control Jacket temperature control
Pump power 3.0Kw 3.0Kw 3.0Kw 3.0Kw
Pump speed 0~3000rpm 0~3000rpm 0~3000rpm 0~3000rpm
Agitator power 1.75Kw 1.75Kw 2.5Kw 3.0Kw
Agitator speed 0~500rpm 0~500rpm 0~1000rpm 0~1000rpm
Explosion proof NO

carbonnanotubes

ADVANTAGES:

1.Compared with the dispersion in the traditional harsh environment, ultrasonic dispersion can reduce the damage to the structure of single-walled carbon nanotubes and maintain a long single-walled carbon nanotube.

2.It can be completely and evenly dispersed to better achieve the performance of carbon nanotubes.

3.It can quickly disperse carbon nanotubes, avoid degradation of carbon nanotubes, and obtain high concentration carbon nanotube solutions.


Product detail pictures:

Top Suppliers 2000w Ultrasonic Homogenizer Make Graphene - 20Khz ultrasonic carbon nanotube dispersion machine – JH detail pictures

Top Suppliers 2000w Ultrasonic Homogenizer Make Graphene - 20Khz ultrasonic carbon nanotube dispersion machine – JH detail pictures

Top Suppliers 2000w Ultrasonic Homogenizer Make Graphene - 20Khz ultrasonic carbon nanotube dispersion machine – JH detail pictures

Top Suppliers 2000w Ultrasonic Homogenizer Make Graphene - 20Khz ultrasonic carbon nanotube dispersion machine – JH detail pictures


Related Product Guide:

In order to best meet client's needs, all of our operations are strictly performed in line with our motto "High Quality, Competitive Price, Fast Service" for Top Suppliers 2000w Ultrasonic Homogenizer Make Graphene - 20Khz ultrasonic carbon nanotube dispersion machine – JH , The product will supply to all over the world, such as: Colombia, California, Florida, All our staffs believe that: Quality builds today and service creates future. We know that good quality and the best service are the only way for us to achieve our customers and to achieve ourselves too. We welcome customers all over the word to contact us for future business relationships. Our products are the best. Once Selected, Perfect Forever!
  • Speaking of this cooperation with the Chinese manufacturer, I just want to say"well dodne", we are very satisfied.
    5 Stars By Griselda from Kyrgyzstan - 2018.04.25 16:46
    The sales manager is very patient, we communicated about three days before we decided to cooperate, finally, we are very satisfied with this cooperation!
    5 Stars By EliecerJimenez from Mauritius - 2017.07.07 13:00
    Write your message here and send it to us