Chinese Professional Ultrasonic Dispersion Of Graphene - continuous flowcell ultrasonic emulsion paint mixer machine homogenizer – JH
Chinese Professional Ultrasonic Dispersion Of Graphene - continuous flowcell ultrasonic emulsion paint mixer machine homogenizer – JH Detail:
Pigments are dispersed into paints, coatings, and inks to provide color. But most of the metal compounds in pigments, such as: TiO2, SiO2, ZrO2, ZnO, CeO2 are insoluble substances. This requires an effective means of dispersion to disperse them into the corresponding medium. Ultrasonic dispersion technology is currently the best dispersion method. Ultrasonic cavitation produces countless high and low pressure zones in the liquid. These high and low pressure zones continuously impact solid particles during the circulation process to deagglomerate them, reduce the size of the particles, and increase the surface contact area between the particles, so Disperse evenly into the solution.
SPECIFICATIONS:
ADVANTAGES:
*High efficiency, large output, can be used 24hours per day.
*Installation and operation are very simple.
*The equipment is always in self-protection state.
*CE certificate, food grade.
*Can process high viscous pulp.
Product detail pictures:
Related Product Guide:
We purpose to understand high quality disfigurement with the output and supply the top service to domestic and overseas buyers wholeheartedly for Chinese Professional Ultrasonic Dispersion Of Graphene - continuous flowcell ultrasonic emulsion paint mixer machine homogenizer – JH , The product will supply to all over the world, such as: Macedonia, Slovak Republic, Malta, We have a strict and complete quality control system, which ensures that each product can meet quality requirements of customers. Besides, all of our products have been strictly inspected before shipment.
By Miriam from Victoria - 2017.07.28 15:46
Adhering to the business principle of mutual benefits, we have a happy and successful transaction, we think we will be the best business partner.
By Sara from Philippines - 2018.05.13 17:00