Ultrasonic Atomizing Spray Glass Coating Atomizing Spray

Ultrasonic coating technology has replaced conventional coating systems in a wide range of industrial and R&D applications, and enabled spray processes that would otherwise be impossible. Compared to many other coating systems, ultrasonic spray nozzles are more precise, more controllable, more repeatable, and more environmentally friendly.
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Ultrasonic Atomizing Spray Glass Coating Atomizing Spray

Parameter

Item Parameter
Frequency 50Khz
Power 10~100w
FLOW RATE (ml/min) 0~20ml/min
Spray width 2~200mm
Solution utilization above 98%
Description Ultrasonic coating technology has replaced conventional coating systems in a wide range of industrial and R&D applications, and enabled spray processes that would otherwise be impossible. Compared to many other coating systems, ultrasonic spray nozzles are more precise, more controllable, more repeatable, and more environmentally friendly. The unpressurized, low-velocity spray is easily controlled and significantly reduces the amount of overspray since the drops settle on the substrate, rather than bouncing off it. This translates into substantial material savings and reduction in emissions into the environment. The nozzles are inherently non-clogging, self-cleaning devices due to continuous ultrasonic vibrations and their relatively large orifice. RPS-SONIC's ultrasonic spray nozzles are fabricated from titanium for long life and excellent acoustical properties. Visit How Ultrasonic Nozzles Work for more information about this unique spray technology. Ultrasonic nozzles open up a broad range of new application possibilities. The nozzles are ideal, for example, when extremely low flow rates are required. And they offer unique benefits when spraying particles in suspension, keeping particles evenly suspended during the entire spray process through the ultrasonic action of the nozzle itself. This results in more uniform dispersion of functional particles in thinner layers.   Features
  • Reduced material consumption and overspray by up to 80%
  • Highly controllable spray patterns for reliable, consistent results
  • Corrosion-resistant construction
  • Ultra-low flow rate capabilities
  • Low maintenance non-clogging design
  • Reduced downtime in critical manufacturing processes
  • High reliability with no moving parts
  • Ability to control atomized drop size by choice of nozzle frequency
  • Tight drop distribution allows for optimization to desired coating morphology
Application Spraying in the field of new energy: fuel cells, thin-film solar cells Spraying in the glass field: anti-reflection AR, hydrophilic and hydrophobic coating, conductive layer, etc. Spraying in the electronic field: flux, photoresist, conformal paint Non-woven fabric and textile spraying Spraying in the biomedical field Conductive film: conductive films such as carbon nanotubes, graphene, nano silver, etc.

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