Professional Design Ultrasonic Atomizer Long Nozzle For Semiconductor/Electronics Industry With Both Ultrasonic Generator And Nozzle Included

Professional Design Ultrasonic Atomizer Long Nozzle For Semiconductor/Electronics Industry With Both Ultrasonic Generator And Nozzle Included

30Khz High Temperature Ultrasonic Nebulizer For Nanowires and Graphene Atomizing The main parts: Generator It can transfer the 50-60Hz city electricity to high-power’s high-frequency (15kHz-100kHz) power supply, and then provide to the transducer. Transducer It can transfer high-frequency...

Product Details

 Professional Design Ultrasonic Atomizer Long Nozzle for Semiconductor/Electronics Industry with Both Ultrasonic Generator and Nozzle Included


Introduction:

Ultrasonic spray nozzles have long been recognized as an ideal tool for microencapsulation. Their characteristic low-velocity spray, easily controllable drop size (drop diameter is determined by nozzle frequency), and non-clogging design provide a perfect fit for many applications.



Technical Parameter:

Frequency30Khz
Power100W

Major power supply

220V 50HZ 2A

Power Consumption

0.001 Degrees/Kg

Atomization Volume

70L/H
Average Particle Diameter Of Fog39um


Application:

Ultrasonic spray technology is used to apply antimicrobial spray coatings for a variety of industries from medical, food, textiles, electronic devices to construction materials.


Product video:


Workshop:

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CE Certification:

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Packing&Shipping

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Payment:

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FAQ:

Q:How do you control production quality ?

A: 3 times old test to confirm the products is well quality.

20 technician work together , and learn together , to improve our products.

48 hours working time to test the stability of our product before sending out.


Q:Why ultrasonic coating is better than other coatings in Fuel Cells?

A:When ultrasonic nozzles are used, the spray can be made to be as dry as necessary by the nature of the small and uniform droplet size, by varying the distance the droplets travel and by applying low heat to the substrate such that the droplets dry in the air before reaching the substrate. Process engineers have finer control over these types of variables as opposed to other technologies. Additionally, because the ultrasonic nozzle imparts energy to the suspension just prior to and during atomization, possible agglomerates in the suspension are broken up resulting in homogenous distribution of the catalyst, resulting in higher efficiency of the catalyst and in turn, the fuel cell.


Q: Are you trading company or manufacturer ?

A: We are a factory with our own international business department,.Also welcome customer visit our company for experiment.



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