High Efficiency Stable Ultrasonic Atomizer Nozzle Atomized Particles 15kHz

Specifications:

Description:

Ultrasonic spraying is a unique spraying technology, which is a spraying method based on ultrasonic atomizing nozzle technology. The material to be sprayed is first in a liquid state, and the liquid can be solution, sol, suspension, etc. The liquid coating is first atomized into fine particles by an ultrasonic atomizing device, and then uniformly coated on the surface of the substrate by a certain amount of carrier gas, thereby forming a coating or film. Compared with traditional pneumatic two-fluid spraying, ultrasonic atomizing spraying can achieve better uniformity, thinner coating thickness and higher precision. At the same time, since the ultrasonic nozzle can be atomized without air pressure assistance, the use of ultrasonic spraying can significantly reduce the splash of paint during the spraying process and achieve the purpose of saving paint.

Applications:

Ultrasonic atomization spraying systems are now used in many fields, especially in the fields of alternative energy and nanomaterials, glass industry, medical treatment, printed circuit boards, semiconductors, etc. Such as:
1. Ultrasonic fuel cell catalyst coating system
2. Thin film & perovskite solar cell coating system
3. Carbon nanotubes, nanowires and other nanomaterial coating systems
4. Thin film functional glass coating system
5. Hard coating and other thin film protective glass coating systems

Competitive Advantage:

1. The printhead is inherently non-clogging, has a self-cleaning device, and has no moving parts to wear, greatly reducing downtime in critical production processes.

2. The spray pattern is easy to form for precise spraying, and the highly controllable spray produces reliable, consistent results.

3. The nozzle adopts corrosion-resistant titanium alloy structure, which has a long service life and excellent acoustic performance, making the application range wider.

4. Ultra-low flow capacity, easy to control, repeatable intermittent or continuous spraying. And because the water droplets stay on the substrate instead of bouncing off, the amount of overspray is greatly reduced (up to 80%), which translates into substantial material savings and reduced emissions to the environment.

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