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Home ProductsUltrasonic Spray Nozzle

Durable Ultrasonic Atomising Spray Nozzles 30 khz Low Velocity Mist Uniform

Durable Ultrasonic Atomising Spray Nozzles 30 khz Low Velocity Mist Uniform

    • Durable Ultrasonic Atomising Spray Nozzles 30 khz Low Velocity Mist Uniform
    • Durable Ultrasonic Atomising Spray Nozzles 30 khz Low Velocity Mist Uniform
  • Durable Ultrasonic Atomising Spray Nozzles 30 khz Low Velocity Mist Uniform

    Product Details:

    Place of Origin: China
    Brand Name: HC-SONIC
    Model Number: HC-AT30

    Payment & Shipping Terms:

    Minimum Order Quantity: 1 Set
    Price: negotiation
    Packaging Details: FOAM AND CARTON
    Delivery Time: 5days
    Payment Terms: T/T, Western Union, MoneyGram, paypal
    Supply Ability: 500 Set per month
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    Detailed Product Description
    Name: Ultrasonic Atomizing Frequency: 30Khz
    Power: 100~500W Generator: Digital Generator
    Average Particle Diameter Of Fog: 20~90um Atomization Volume: 30~200 L/h

    30khz Low velocity mist uniform Ultrasonic Atomizing highly durable

    Descripersion:

    Ultrasonic nozzles are a type of spray nozzle that uses high frequency vibration produced by piezoelectric transducers acting upon the nozzle tip that will create capillary waves in a liquid film. Once the amplitude of the capillary waves reaches a critical height (due to the power level supplied by the generator), they become too tall to support themselves and tiny droplets fall off the tip of each wave resulting in atomization.[

    The primary factors influencing the initial droplet size produced are frequency of vibration, surface tension, and viscosity of the liquid. Frequencies are commonly in the range of 20–180 kHz, beyond the range of human hearing, where the highest frequencies produce the smallest drop size.

    Ultrasonic spray nozzle systems have replaced pressure nozzles in a wide range of industrial and R&D applications, and enabled spray processes that would otherwise be impossible. Concerns over the environment and unacceptable quantities of waste have influenced manufacturers to adopt ultrasonic spray nozzle systems as a technology that is more precise, more controllable, and a more environmentally friendly coating application.

     

    Model HC-AN30
    Frequency 30Khz
    Atomization Volume 30~200 L/H
    Average Particle Diameter of Fog 20~90um
    Power Consumption 0.01 Degrees/Kg
    Atomization Head Structure Horn
    Power 100 W~500 W
    The Application of Atomizing Media Ordinary water, a variety of liquid substances, chemical liquid,a variety of oil mucus, metal melt and so on

     

     

    Advantage

    Ultrasonic nozzle benefits:

    •Ultra-low flow rate capabilities, intermittent or continuous

    •No moving parts to wear out

    •Non-clogging

    •Drops sizes as small as 13 microns, depending upon nozzle frequency

    •reduce downtime in critical manufacturing processes

    •Spray patterns are easily shaped for precise coating applications

    •Highly controllable spray produces reliable, consistent results

    •Corrosion-resistant titanium and stainless steel construction

     

     

     

     

    Transparent conductive films

    Ultrasonic spray nozzle technology has been used to create films of indium tin oxide (ITO) in the formation of transparent conductive films (TCF) ITO has excellent transparency and low sheet resistance, however it is a scarce material and prone to cracking, which does not make it a good candidate for the new flexible TCFs. Graphene on the other hand can be made into a flexible film, extremely conductive and has high transparency. Ag nanowires (AgNWs) when combined with Graphene has been reported to be a promising superior TCF alternative to ITO.Prior studies focus on spin and bar coating methods which are not suitable for large area TCFs. A multi-step process utilizing ultrasonic spray of graphene oxide and conventional spray of AgNWs followed by a hydrazine vapor reduction, followed by the application of polymethylmethacrylate (PMMA) topcoat resulted in a peelable TCF that can be scaled to a large size.[

     

     

    Carbon nanotubes

    CNT thin films are used as alternative materials to create transparent conducting films (TCO layers)for touch panel displays or other glass substrates, as well as organic solar cell active layers.

    Ultrasonic atomization occurs at the nozzle’s tip through the rapid mechanical upward and downward motion of the nozzle tip which causes a film of liquid to form into standing capillary waves. When the amplitude of the capillary wave, which is a function of the amount of wattage applied (typically within the range of 1 to 20 watts), peaks what is required for stability of the system, the liquid at the peak crests breaks away in the form of droplets. 

     

    Durable Ultrasonic Atomising Spray Nozzles 30 khz Low Velocity Mist Uniform

    Durable Ultrasonic Atomising Spray Nozzles 30 khz Low Velocity Mist Uniform

     

     

     

     

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