Ultrasonic Cleaner Technology
Ultrasonic cleaner is a method which makes use of high frequency sound waves to clean an ultrasonic filter (or other type of media) using a combination of static electric currents and ultrasonic vibrations. It uses a transducer – a device that receives ultrasonic energy, converts it into electrical signals and amplifies them. There are several common ultrasonic cleaner types available in the market today. This type of cleaner works best with hard water and dirty filters, thereby removing microorganisms like bacteria and germs. The ultrasonic frequency used by these devices is generally between thirty to forty kilohertz. The high frequency generated by these devices is actually enough to cause the molecules of the media to vibrate resulting in a powerful cleaning process. Read more https://www.landroverbar.com/best-ultrasonic-carburetor-cleaner-reviews/
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Most household products make use of this technology, which makes them ideal for cleaning any type of surface. However, it does not work well with certain materials. Cleaning surfaces like metal, plastic and glass are often ruined by ultrasonic cleaner machines due to their extreme fragility. Some manufacturers of this kind of cleaning machines add small bubbles to their products as a way of ensuring optimum cleaning efficiency. Small bubbles are placed on metallic and plastic surfaces to ensure that they get cleaned thoroughly without damaging the surface in the process.
When used to clean aluminum foil, one can significantly improve the cleaning efficiency of this device. Aluminum foil is porous and hence contains large molecules (in the range of micrometers) which are very difficult to remove using ordinary cleaning methods. For this reason, high frequency ultrasound vibrations produced by ultrasonic cleaners are much more effective when used on aluminum foil than with other materials. Regular dry cotton cloth or a toothbrush is used on the surface to remove the contaminants from the foil. Once these particles are removed, the dry cotton cloth is replaced by the ultrasonic cavitation intensity achieved by the machine.